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Gallium Tin Alloy Nanopowder

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Ga-Sn Alloy Nanoparticles/Nanopowder (Particle Size Less than ≤ 80 nm, 99.9%) Gallium Tin Alloy Nanopowder

Product Formula	Ga: Sn
Product Number	NCZ-A-125-19
Molecular Weight	188.43 g/moL
APS	≤ 80 nm (can be customized)
Purity	99.9%
Color	Silver Grayish
Form	Nanopowder
Density	1.9 g/cm³
Melting Point	600 °C
Boiling Point	1421 °C

Note: We can manufacture and supply different particle sizes (Nano size range, Micron, Submicron, and different Mesh size) products of Alloy powders (Multi-Element, Multi-Element Oxide and Mixture of Rare Earth Elements) according to client’s requirements. Kindly ask for the customization in size and Element ratio composition.

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Germanium Acetate Powder

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Germanium Acetate Powder

Product	Germanium Acetate Powder
CAS No.	1112-60-3
Appearance	White to Clear Powder
Purity	≥99%, ≥99.9%, ≥95%(Other purities are also available)
APS	1-5 µM, 10-53 µM (Can be customized), Ask for other available size range.
Ingredient	Ge(C2H3O2)2
Density	N/A
Molecular Weight	291.87g/mol
Product Code	NCZ-CAS-167/25

Germanium Acetate Description:

Germanium Acetate Powder is one of the numerous advanced ceramic materials manufactured by Nanochemazone. Nanochemazone produces too many standard grades when applicable, including Mil Spec (military grade); ACS, Reagent and Technical Grade; Food, Agricultural and Pharmaceutical Grade; Optical Grade, USP and EP/BP (European Pharmacopoeia/British Pharmacopoeia) and follows applicable ASTM testing standards. Typical and custom packaging is available. Additional technical, research and safety (MSDS) information are available. Please request a quote above for more information on lead time and pricing.

Germanium Acetate Powder Related Information:

Compound Formula	Ge(C8H19O2)
Molecular Weight	219.87
Appearance	White to Clear Liquid
Melting Point	N/A
Boiling Point	N/A
Density	N/A
Solubility in H2O	N/A
Exact Mass	N/A
Monoisotopic Mass	220.052406 Da
Charge	N/A

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Germanium Acetate Solution Powder

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Germanium Acetate Solution Powder

Product	Germanium Acetate Solution Powder
CAS No.	1112-60-3
Appearance	White to Clear Powder
Purity	≥99%, ≥99.9%, ≥95%(Other purities are also available)
APS	1-5 µM, 10-53 µM (Can be customized), Ask for other available size range.
Ingredient	Ge(C8H19O2)
Density	N/A
Molecular Weight	291.87g/mol
Product Code	NCZ-CAS-168/25

Germanium Acetate Solution Description:

Germanium Acetate Solution Powder is one of the numerous advanced ceramic materials manufactured by Nanochemazone. Nanochemazone produces too many standard grades when applicable, including Mil Spec (military grade); ACS, Reagent and Technical Grade; Food, Agricultural and Pharmaceutical Grade; Optical Grade, USP and EP/BP (European Pharmacopoeia/British Pharmacopoeia) and follows applicable ASTM testing standards. Typical and custom packaging is available. Additional technical, research and safety (MSDS) information are available. Please request a quote above for more information on lead time and pricing.

Germanium Acetate Solution Powder Related Information:

Compound Formula	C8H18GeO2
Molecular Weight	219.87
Appearance	White to Clear Liquid
Melting Point	N/A
Boiling Point	N/A
Density	N/A
Solubility in H2O	N/A
Exact Mass	N/A
Monoisotopic Mass	220.052406 Da
Charge	N/A

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Germanium Dioxide Powder

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Product Name: Germanium Dioxide Powder

Product	Germanium Dioxide Powder
CAS No.	1310-53-8
Appearance	Powder
Purity	99.9%
APS	1 – 5 Microns (Can be customized)
Ingredient	GeO2
Product Code	NCZ-AE-142

DESCRIPTION Germanium dioxide, also called germanium oxide and germania, is the inorganic compound with the chemical formula GeO2. It is the main commercial source of germanium. Heating germanium dioxide with powdered germanium at 1000 °C forms germanium monoxide (GeO). The refractive index of germanium dioxide and optical dispersion properties makes it useful as an optical material for wide-angle lenses and in optical microscope objective lenses. Function：

Germanium Dioxide is the main commercial source of germanium. Heating germanium dioxide

with powdered germanium at 1000 °C

The refractive index of germanium dioxide and optical dispersion properties makes it useful as an optical material for wide-angle lenses and in optical microscope objective lenses.
Germanium dioxide is also used as a catalyst in production of polyethylene terephthalate resin, and for production of other germanium compounds.
Furthermore, germanium dioxide is used in algaculture, etc.

RELATED INFORMATION Storage Conditions: Airtight sealed, avoid light, and keep dry at room temperature. Please email us for the customization. Email: contact@nanochemazone.com

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Germanium Powder

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Product Name: Germanium Powder

Product	Germanium Powder
CAS No.	7440-56-4
Appearance	Powder
Purity	99.9%
APS	1 – 5 microns (can be customized)
Ingredient	Ge
Product Code	NCZ-AE-176

RELATED INFORMATION Storage Conditions: Airtight sealed, avoid light, and keep dry at room temperature. Please email us for the customization. Email: contact@nanochemazone.com

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Germanium Telluride Powder

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Product Name: Germanium Telluride Powder

Product	Germanium Telluride Powder
CAS No.	12025-39-7
Appearance	Black Powder
Purity	99.9%
APS	1 – 5 Microns (Can be customized)
Ingredient	GeTe
Product Code	NCZ-NSC-228/20

Germanium Telluride Powder Description :

GermaniumTelluride Powder is a promising thermoelectric compound with uses in doping, alloying, and nanostructuring, non-stoichiometric defects. It is also an important semiconductor that can act as a low-temperature superconductor when doped. GeTe is also an important semiconductor material prototypical phase change material of high interest for applications in optical and electronic non-volatile memories.

Germanium Telluride Powder Related Information

Storage Conditions: Airtight sealed, avoid light, and keep dry at room temperature. Please contact us for customization and price inquiry Email: contact@nanochemazone.com Note: We supply different size ranges of Nano and micron as per the client’s requirements and also accept customization in various parameters.

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Germanium Wafers

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Germanium Wafer

Product Name	Germanium Wafer
Product Code	NCZ-WM-0018
CAS	7440-56-4
Diameter	50.8 mm, also available in 3, 5, 6, 12″ (Customization possible)
Type	Un-doped (Customization possible)
Orientation	<100>/other orientations are also available
Surface	Both/Single Side Polished
Wafer Thickness	500 /- 25 µm (Customization possible)
Resistivity	5-40 Ω-cm (Customization possible)

Please enquire for other wafers having different thicknesses, Diameter, Length, and sizes, etc. If the item shown is not exactly what you require please let us know by sending us a message

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GH 3625 Powder

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GH 3625 Powder

Product	GH 3625 Powder
CAS No.	3526-43-0
Appearance	Gray Powder
Purity	≥99%, ≥99.9%, ≥95%(Other purities are also available)
APS	1-5 µM, 10-53 µM (Can be customized), Ask for other available size range.
Ingredient	Ni-Fe-Cr-Mo
Density	N/A
Molecular Weight	213.28g/mol
Product Codes	NCZ-DCY-283/25

GH 3625 Description:

GH 3526 Powder is one of the numerous advanced ceramic materials manufactured by Nanochemazone. Nanochemazone produces too many standard grades when applicable, including Mil Spec (military grade); ACS, Reagent and Technical Grade; Food, Agricultural and Pharmaceutical Grade; Optical Grade, USP and EP/BP (European Pharmacopoeia/British Pharmacopoeia) and follows applicable ASTM testing standards. Typical and custom packaging is available. Additional technical, research and safety (MSDS) information are available. Please request a quote above for more information on lead time and pricing

GH 3625 Powder Related Information :

Properties	Details
Composition	Ni-25Cr-4.5Mo-3.5Al alloy
Density	8.2 g/cc
Particle shape	Predominantly spherical
Size range	15-45 microns
Apparent density	Up to 60% of true density
Flowability	Good
Strength	Very high after aging treatment
Corrosion resistance	Excellent including pitting and crevice corrosion

GH3625 is widely used in aerospace, oil and gas, chemical processing, and power generation sectors needing high strength and corrosion resistance at elevated temperatures. GH3625 Powder Composition

Element	Weight %
Nickel	Balance
Chromium	24-27%
Molybdenum	4-5%
Aluminum	3-4%
Carbon	0.1% max
Manganese	1% max
Silicon	0.5% max
Sulfur	0.015% max

Nickel provides corrosion resistance and aids precipitation hardening Chromium significantly improves oxidation and corrosion resistance Molybdenum and aluminum facilitate precipitation strengthening Carbon and other elements limited as impurities The composition is optimized to provide peak strengthening from precipitation hardening as well as excellent corrosion and oxidation resistance. GH3625 Powder Physical Properties

Property	Values
Density	8.2 g/cc
Melting point	1390-1440°C
Thermal conductivity	11 W/mK
Electrical resistivity	52 μΩ-cm
Coefficient of thermal expansion	13.0 x 10^-6 /K

High density compared to steels and titanium alloys Retains high strength at temperatures exceeding 1000°C Relatively low thermal conductivity necessitates design considerations CTE is moderate and similar to stainless steels These properties make GH3625 suitable for high strength applications at elevated temperatures needing corrosion resistance. GH3625 Powder Mechanical Properties

Property	Condition	Values
Hardness	Solution annealed	35 HRC
Hardness	Peak aged	50-56 HRC
Tensile strength	Annealed	1000 MPa
Tensile strength	Aged	1500-1800 MPa
Yield strength	Aged	1200-1600 MPa
Elongation	Aged	10-15%

Ages to very high strength levels exceeding other precipitation hardening alloys Retains reasonable ductility in peak aged condition Hardness increases substantially after aging treatment Strength can be tailored through aging time and temperature These properties make GH3625 suitable for components needing high strength combined with corrosion resistance. GH3625 Powder Applications

Industry	Uses
Aerospace	Turbine blades, bolts, fasteners
Oil and gas	Wellhead valves, downhole tools
Chemical processing	Extruder screws, valve parts
Power generation	Boiler components, steam and gas turbines

Some specific product applications include: Aerospace turbine engine blades, discs and fasteners Bolting for high temperature petrochemical piping Valve components used in corrosive chemical environments Boiler superheater tubes and headers Steam turbine blades and fasteners GH3625 provides exceptional strength and corrosion resistance for critical components used at elevated temperatures across demanding industries. GH3625 Powder Standards

Standard	Description
AMS 5815	Nickel alloy powder compositions
AMS 5408	Wire, rods, and bars of precipitation hardening nickel alloys
AMS 5698	Investment castings of PH nickel alloys
AMS 5772	Nickel alloy forgings
AMS 5634	Nickel alloy extruded shapes

These define: Chemical composition limits of GH3625 Required mechanical properties in different heat treatment conditions Approved powder production method – inert gas atomization Impurity limits for critical elements Compliance testing protocols Proper handling and storage instructions Meeting these certification requirements ensures optimal performance. GH3625 Powder Particle Size Distribution

Particle Size	Characteristics
15-25 microns	Ultrafine powder used in laser AM processes
25-45 microns	Size range for most powder bed AM systems
45-75 microns	Larger sizes used in laser cladding

Finer powder provides higher resolution and surface finish Coarser powder suitable for high deposition rate processes Size distribution tailored based on AM method used Spherical morphology maintained in all sizes Controlling particle size distribution and morphology is critical for AM performance, final part properties and quality. GH3625 Powder Apparent Density

Apparent Density	Details
Up to 60% of true density	For spherical powder morphology
4.5 – 5.2 g/cc	Improves with greater packing density

Spherical powder shape provides high apparent density Higher density improves powder flow and bed packing in AM Reduces entrapped gas porosity in final part Maximizing density minimizes press cycle time Higher apparent density results in better manufacturing productivity and part performance. GH3625 Powder Production Method

Method	Details
Gas atomization	High pressure inert gas breaks up molten metal stream into fine droplets
Vacuum induction melting	High purity input materials melted under vacuum
Multiple remelting	Improves chemical homogeneity
Sieving	Classifies powder into different particle size fractions

Gas atomization with inert gas produces clean spherical powder Vacuum processing minimizes gaseous impurities Multiple remelts improve uniformity of composition Post-processing provides particle size distribution control Automated methods combined with strict quality control result in consistent GH3625 powder suitable for critical applications. GH3625 Powder Handling and Storage

Recommendation	Reason
Ensure proper ventilation	Avoid exposure to fine metallic particles
Use appropriate PPE	Prevent accidental inhalation or ingestion
Follow safe protocols	Reduce health and fire hazards
Store sealed containers	Prevent contamination or oxidation

GH3625 powder is relatively stable but general precautions are still recommended for safe handling and maintaining purity. Storage Recommendations Store in stable containers in a dry, cool area Limit exposure to moisture which can degrade properties Maintain temperatures below 30°C Proper precautions preserve powder condition and prevent safety issues. GH3625 Powder Inspection and Testing

Test	Details
Chemical analysis	OES or XRF spectroscopy used to verify composition
Particle size distribution	Laser diffraction analysis
Apparent density	Measured as per ASTM B212 standard
Powder morphology	SEM imaging of particle shape
Flow rate analysis	Gravity flow rate through specified nozzle
Moisture measurement	Loss on drying analysis

Testing ensures the powder meets the required chemical purity, particle characteristics, density specifications, morphology and flowability per relevant standards. GH3625 Powder Pros and Cons Advantages of GH3625 Powder Exceptional high temperature strength and creep resistance Retains strength and hardness up to 1100°C Excellent corrosion resistance across environments Good fatigue strength and fracture toughness High hardness combined with reasonable ductility Less dense than nickel superalloys Limitations of GH3625 Powder More expensive than stainless steel powders Requires controlled heat treatment for optimal properties Lower wear resistance than cobalt alloys Difficult to machine after sintering Limited cold heading and forming capability Subject to pitting in strongly oxidizing acids Comparison With Inconel 718 Powder GH3625 vs Inconel 718 Powder

Parameter	GH3625	Inconel 718
Density	8.2 g/cc	8.2 g/cc
Strength	Higher	Lower
Corrosion resistance	Excellent	Outstanding
Cost	Moderate	Very high
Uses	Oil and gas, chemical processing	Aerospace, nuclear

GH3625 provides higher tensile strength Inconel 718 offers better overall corrosion resistance GH3625 is more cost effective Inconel 718 is preferred for extreme environments GH3625 provides optimal strength and cost balance GH3625 Powder FAQs Q: What are the main applications of GH3625 nickel alloy powder? A: Main applications include aerospace turbine components, oil and gas wellhead valves and downhole tools, power generation parts, chemical processing equipment, and other high temperature components needing strength and corrosion resistance. Q: Why is GH3625 preferred over stainless steel powders in high temperature applications? A: GH3625 retains significantly higher strength compared to stainless steels at temperatures exceeding 650°C. It also provides excellent corrosion resistance in hot corrosive environments. Q: What precautions should be taken when working with GH3625 powder? A: Recommended precautions include ventilation, appropriate PPE, avoiding ignition sources, following safe handling protocols, and storing sealed containers away from moisture, air, and contamination. Q: How does aluminum affect the properties of GH3625 alloy? A: Aluminum enhances precipitation hardening by forming nickel-aluminum precipitates during aging treatment. This provides substantial strengthening while maintaining reasonable ductility.

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GH 3625 Powder

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GH 3625 Powder

Product	GH 3625 Powder
CAS No.	3526-43-0
Appearance	Gray Powder
Purity	≥99%, ≥99.9%, ≥95%(Other purities are also available)
APS	1-5 µM, 10-53 µM (Can be customized), Ask for other available size range.
Ingredient	Ni-Fe-Cr-Mo
Density	N/A
Molecular Weight	213.28g/mol
Product Codes	NCZ-DCY-287/25

GH 3625 Description:

GH 3625 Powder Related Information :

Metal Powder	Size	Quantity	Price/kg	Size	Quantity	Price/kg
Inconel 625	0-20μm	1KG	$59	20-63μm	1KG	$98.30
		10KG	$39		10KG	$69.10
		100KG	$34		100KG	$64.50

Overview GH3625 powder Inconel 625 powder is an alloy powder used for metal additive manufacturing processes like selective laser sintering (SLS) and direct metal laser sintering (DMLS). It is a nickel-based superalloy that offers high strength, corrosion resistance, and excellent high-temperature properties. GH3625 is designed specifically for additive manufacturing to produce complex, dense parts with exceptional mechanical properties comparable to wrought materials. It enables the production of lightweight components with complex geometries for aerospace, automotive, medical, and industrial applications. This guide provides a detailed overview of GH3625 powder covering its composition, properties, applications, specifications, pricing, advantages, and limitations. Comparisons are made to other common alloys like Inconel 718 and Satellite 21 to highlight the performance and suitability of GH3625 for different uses. An FAQ section addresses key questions about this material. GH3625 powder Inconel 625 powder Composition GH3625 has a complex chemical composition designed to provide a combination of high strength, resistance to thermal fatigue, oxidation, and corrosion resistance. Here is an overview of its composition:

Element	Weight %
Nickel	Balance
Chromium	15-17%
Cobalt	10%
Molybdenum	8-10%
Tantalum	5-6%
Aluminum	1.2-1.7%
Titanium	0.5-1.2%
Boron	0.01%

Nickel forms the base of this superalloy providing ductility and toughness. Elements like chromium, cobalt, and molybdenum contribute to high temperature strength through solid solution strengthening. Tantalum provides solid solution strengthening and forms carbide particles for precipitation hardening. Aluminum and titanium form the gamma prime phase Ni3(Al,Ti) to give excellent high temperature mechanical properties. Boron enhances grain boundary strength. The balanced composition gives GH3625 powder excellent weldability compared to precipitation hardening stainless steels. It can be easily post-processed through hot isostatic pressing (HIP), heat treatment, and machining. GH3625 powder Inconel 625 powder Properties GH3625 powder has the following physical and mechanical properties that make it suitable for demanding applications: GH3625 powder Inconel 625 powder Properties

Property	Value
Density	8.1-8.5 g/cc
Melting Point	1260-1335°C
Thermal Conductivity	11-12.5 W/mK
Coefficient of Thermal Expansion	12.5-13.5 x 10<sup>-6</sup>/K
Modulus of Elasticity	156-186 GPa
Poission’s Ratio	0.29-0.33
Tensile Strength	1050-1280 MPa
Yield Strength (0.2% offset)	860-1050 MPa
Elongation	8-15%
Hardness	32-38 HRC

The high melting point, thermal conductivity, and low coefficient of thermal expansion enable good dimensional stability under high temperature service environments up to 1000°C for limited periods. The alloy has excellent tensile and yield strength comparable to wrought materials along with good ductility and fracture toughness. It exhibits high hardness, resistance to wear, galling, and abrasion. The properties allow GH3625 to outperform stainless steels, cobalt alloys, and even rival precipitation hardening nickel superalloys in high temperature strength. It also offers better weldability than Inconel 718. GH3625 powder Inconel 625 powder Applications The combination of high strength, hardness, toughness, and thermal stability makes GH3625 suitable for: GH3625 powder Inconel 625 powder Applications

Industry	Components
Aerospace	Turbine blades, combustor parts, nozzle guide vanes
Automotive	Turbocharger wheels, manifolds, valves
Oil and Gas	Wellhead parts, downhole tools, valves
Power Generation	Heat exchangers, burner components
Chemical Processing	Pump impellers, valves, reaction vessels
Medical	Dental implants, prosthetics, surgical instruments

The ability to 3D print complex geometries allows consolidating multiple parts into single components and lightweight lattice structures. This enables faster printing of single-piece components versus assembling multiple sections. GH3625 is used to print blades, impellers, plates, discs, tubes with conformal cooling channels, and other mission-critical components working under high pressures and temperatures. GH3625 powder Inconel 625 powder Specifications GH3625 powder for AM processes is available in different size distributions, shapes, and formulations from various powder manufacturers. GH3625 Powder Types

Specification	Details
Particle Size Distribution	15-45 μm, 15-53 μm, 53-150 μm
Particle Shape	Spherical, satellite, polyhedral
Alloy Modifications	With B, C, Zr, Nb, Ta
Manufacturing Method	Gas atomization, plasma atomization

Gas atomization and plasma atomization produce spherical powders optimal for SLS/DMLS processes. Satellite powders have higher tap density and improve powder flowability. Smaller 15-45 μm powders provide high resolution and surface finish while larger 53-150 μm allow faster build speeds. Different alloying additions like boron, carbon, zirconium, niobium, and tantalum are used to tailor material properties. GH3625 powder Inconel 625 powder Standards

Standard	Description
ASTM F3056	Standard specification for additive manufacturing nickel alloy
AMS7016	Nickel alloy powder for high temperature service
ASME B46.1	Surface texture requirements

GH3625 powder is qualified based on composition limits, particle size distribution, morphology, flowability, apparent density, and microstructure per ASTM F3056. Additional testing as per application standards is required. GH3625 powder Inconel 625 powder Pros and Cons GH3625 has the following advantages that make it a popular choice: GH3625 Pros Excellent strength and hardness up to 1000°C Good corrosion and oxidation resistance Weldable for post-processing Higher ductility than Inconel 718 Can be age hardened by heat treatment Complex geometries enabled by AM Faster and cheaper than castings Reduces part count through consolidation GH3625 Cons More expensive than stainless steels Lower strength than Inconel 718 above 550°C Susceptible to strain-age cracking Requires hot isostatic pressing (HIP) Difficult to machine – requires specialist tools Limited supplier data on long term performance Proper selection of AM process parameters and post-processing mitigates some of the limitations of GH3625 powder. Comparison of GH3625 powder Inconel 625 powder with Inconel 718 and Satellite 21 GH3625 occupies a niche between Inconel 718 and Satellite 21 in terms of properties and cost: Alloy Comparison

Property	GH3625	Inconel 718	Satellite 21
Cost	Medium	High	Low
Density	High	Medium	High
Strength	Medium	Very High	Medium
Hardness	High	Medium	Very High
Wear Resistance	Medium	Low	Very High
Corrosion Resistance	Medium	High	Medium
Oxidation Resistance	Medium	High	Medium
Thermal Stability	Up to 1000°C	Up to 700°C	Up to 900°C
Weldability	Good	Poor	Medium
Manufacturability	Medium	Difficult	Easy

GH3625 matches or exceeds the performance of Satellite 21 cobalt alloys in wear and corrosion resistance but at lower cost. It approaches the strength of Inconel 718 up to 550°C and offers better weldability and manufacturability. This makes it a cost-effective alternative for many applications requiring performance between these standard alloys. The ability to 3D print complex geometries also gives it an edge. GH3625 powder Inconel 625 powder – FAQs Q: What is GH3625 powder? A: GH3625 is a nickel-based superalloy powder specifically designed for additive manufacturing processes like selective laser sintering (SLS) and direct metal laser sintering (DMLS). It provides an excellent combination of high temperature strength, hardness, wear and corrosion resistance. Q: What is GH3625 powder used for? A: GH3625 powder is used to 3D print critical components like turbine blades, manifolds, impellers, heat exchangers that require high mechanical properties, dimensional stability, and thermal resistance up to 1000°C. It finds applications across aerospace, automotive, energy, chemical processing, and medical industries. Q: What metal 3D printing processes use GH3625 powder? A: Selective laser sintering (SLS) and direct metal laser sintering (DMLS) are powder bed fusion 3D printing processes commonly used with GH3625 powder. Binder jetting is also suitable for GH3625. Q: What are the material properties of GH3625? A: GH3625 has excellent tensile strength 1050-1280 MPa, yield strength 860-1050 MPa, and hardness 32-38 HRC similar to wrought materials. It has good ductility of 8-15% elongation and high resistance to wear, galling, abrasion, and corrosion. Thermal properties allow use up to 1000°C. Q: Does GH3625 powder require heat treatment? A: Yes, GH3625 parts printed using SLS/DMLS require hot isostatic pressing (HIP) followed by heat treatment to achieve optimal mechanical properties, material consolidation, and microstructure. HIP helps close internal pores and voids. Q: Is GH3625 weldable? A: GH3625 is designed to have excellent weldability compared to precipitation hardening stainless steels and Inconel 718. This allows repairing and joining AM GH3625 parts through welding. Stress relieving may be required after welding to prevent cracking. Q: Is GH3625 machinable? A: GH3625 is difficult to machine compared to stainless steel and requires high-speed machining with specialist carbide tools. Tool wear is higher so optimal feeds, speeds, and tool paths are necessary. Q: How much does GH3625 powder cost? A: GH3625 typically costs between $90-250 per kg based on order size, particle size distribution, manufacturing method, and additional testing/qualification requirements. It is more expensive than stainless steel powders but lower cost than Inconel 718.

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GH 3625 Powder

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GH 3625 Powder

Product	GH 3625 Powder
CAS No.	3625-57-8
Appearance	Metallic Gray Powder
Purity	≥99%, ≥99.9%, ≥95%(Other purities are also available)
APS	1-5 µM, 10-53 µM (Can be customized), Ask for other available size range.
Ingredient	Ni-Fe-Cr-Mo
Density	1.35g/cm3
Molecular Weight	N/A
Product Codes	NCZ-DCY-229/25

GH 3625 Description:

GH3625 Powder is one of the numerous advanced ceramic materials manufactured by Nanochemazone. Nanochemazone produces too many standard grades when applicable, including Mil Spec (military grade); ACS, Reagent and Technical Grade; Food, Agricultural and Pharmaceutical Grade; Optical Grade, USP and EP/BP (European Pharmacopoeia/British Pharmacopoeia) and follows applicable ASTM testing standards. Typical and custom packaging is available. Additional technical, research and safety (MSDS) information are available. Please request a quote above for more information on lead time and pricing

GH 3625 Powder Related Information :

Properties	Details
Composition	Ni-25Cr-4.5Mo-3.5Al alloy
Density	8.2 g/cc
Particle shape	Predominantly spherical
Size range	15-45 microns
Apparent density	Up to 60% of true density
Flowability	Good
Strength	Very high after aging treatment
Corrosion resistance	Excellent including pitting and crevice corrosion

GH3625 is widely used in aerospace, oil and gas, chemical processing, and power generation sectors needing high strength and corrosion resistance at elevated temperatures. GH3625 Powder Composition

Element	Weight %
Nickel	Balance
Chromium	24-27%
Molybdenum	4-5%
Aluminum	3-4%
Carbon	0.1% max
Manganese	1% max
Silicon	0.5% max
Sulfur	0.015% max

Property	Values
Density	8.2 g/cc
Melting point	1390-1440°C
Thermal conductivity	11 W/mK
Electrical resistivity	52 μΩ-cm
Coefficient of thermal expansion	13.0 x 10^-6 /K

Property	Condition	Values
Hardness	Solution annealed	35 HRC
Hardness	Peak aged	50-56 HRC
Tensile strength	Annealed	1000 MPa
Tensile strength	Aged	1500-1800 MPa
Yield strength	Aged	1200-1600 MPa
Elongation	Aged	10-15%

Industry	Uses
Aerospace	Turbine blades, bolts, fasteners
Oil and gas	Wellhead valves, downhole tools
Chemical processing	Extruder screws, valve parts
Power generation	Boiler components, steam and gas turbines

Standard	Description
AMS 5815	Nickel alloy powder compositions
AMS 5408	Wire, rods, and bars of precipitation hardening nickel alloys
AMS 5698	Investment castings of PH nickel alloys
AMS 5772	Nickel alloy forgings
AMS 5634	Nickel alloy extruded shapes

Particle Size	Characteristics
15-25 microns	Ultrafine powder used in laser AM processes
25-45 microns	Size range for most powder bed AM systems
45-75 microns	Larger sizes used in laser cladding

Apparent Density	Details
Up to 60% of true density	For spherical powder morphology
4.5 – 5.2 g/cc	Improves with greater packing density

Method	Details
Gas atomization	High pressure inert gas breaks up molten metal stream into fine droplets
Vacuum induction melting	High purity input materials melted under vacuum
Multiple remelting	Improves chemical homogeneity
Sieving	Classifies powder into different particle size fractions

Recommendation	Reason
Ensure proper ventilation	Avoid exposure to fine metallic particles
Use appropriate PPE	Prevent accidental inhalation or ingestion
Follow safe protocols	Reduce health and fire hazards
Store sealed containers	Prevent contamination or oxidation

Test	Details
Chemical analysis	OES or XRF spectroscopy used to verify composition
Particle size distribution	Laser diffraction analysis
Apparent density	Measured as per ASTM B212 standard
Powder morphology	SEM imaging of particle shape
Flow rate analysis	Gravity flow rate through specified nozzle
Moisture measurement	Loss on drying analysis

Parameter	GH3625	Inconel 718
Density	8.2 g/cc	8.2 g/cc
Strength	Higher	Lower
Corrosion resistance	Excellent	Outstanding
Cost	Moderate	Very high
Uses	Oil and gas, chemical processing	Aerospace, nuclear

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GH3230 Powder

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GH3230 Powder

Product	GH3230 Powder
CAS No.	3230-94-2
Appearance	Metallic Gray Powder
Purity	≥99%, ≥99.9%, ≥95%(Other purities are also available)
APS	1-5 µM, 10-53 µM (Can be customized), Ask for other available size range.
Ingredient	Ni-Cr-Mo-W-Fe
Density	7.8g/cm3
Molecular Weight	N/A
Product Codes	NCZ-DCY-284/25

GH3230 Description:

GH3230 Powder is one of the numerous advanced ceramic materials manufactured by Nanochemazone. Nanochemazone produces too many standard grades when applicable, including Mil Spec (military grade); ACS, Reagent and Technical Grade; Food, Agricultural and Pharmaceutical Grade; Optical Grade, USP and EP/BP (European Pharmacopoeia/British Pharmacopoeia) and follows applicable ASTM testing standards. Typical and custom packaging is available. Additional technical, research and safety (MSDS) information are available. Please request a quote above for more information on lead time and pricing

GH3230 Powder Related Information :

Properties	Details
Composition	Ni-30Cr-4Mo-2Al alloy
Density	8.3 g/cc
Particle shape	Predominantly spherical
Size range	10-45 microns
Apparent density	Up to 60% of true density
Flowability	Good
Strength	Very high after aging treatment
Corrosion resistance	Excellent including pitting and crevice corrosion

GH3230 Powder Composition

Element	Weight %
Nickel	Balance
Chromium	28-32%
Molybdenum	3-5%
Aluminum	1-3%
Carbon	0.1% max
Manganese	1% max
Silicon	0.5% max
Sulfur	0.015% max

Nickel provides corrosion resistance and facilitates precipitation hardening Chromium significantly enhances oxidation and corrosion resistance Molybdenum and aluminum enable precipitation strengthening Carbon and other elements limited as impurities The composition is designed to achieve peak strengthening from precipitation hardening along with excellent corrosion and oxidation resistance. GH3230 Powder Physical Properties

Property	Values
Density	8.3 g/cc
Melting point	1370-1420°C
Thermal conductivity	12 W/mK
Electrical resistivity	70 μΩ-cm
Coefficient of thermal expansion	12.5 x 10^-6 /K

High density compared to steels and titanium alloys Retains high strength at temperatures exceeding 1000°C Relatively low thermal conductivity necessitates design considerations CTE is moderate and similar to stainless steels These properties make GH3230 suitable for high strength applications at elevated temperatures needing corrosion resistance. GH3230 Powder Mechanical Properties

Property	Condition	Values
Hardness	Solution annealed	37 HRC
Hardness	Peak aged	52-58 HRC
Tensile strength	Annealed	1100 MPa
Tensile strength	Aged	1600-2000 MPa
Yield strength	Aged	1400-1800 MPa
Elongation	Aged	8-12%

Ages to very high strength levels exceeding other precipitation hardening alloys Retains reasonable ductility in peak aged condition Hardness increases substantially after aging treatment Strength can be tailored through aging time and temperature These exceptional properties make GH3230 suitable for components needing very high strength combined with corrosion resistance. GH3230 Powder Applications

Industry	Uses
Aerospace	Turbine blades, bolts, fasteners
Oil and gas	Wellhead valves, downhole tools
Chemical processing	Extruder screws, valve parts
Power generation	Boiler components, steam and gas turbines

Some specific product applications include: Aerospace turbine engine blades, discs and fasteners Bolting for high temperature petrochemical piping Valve components used in corrosive chemical environments Boiler superheater tubes and headers Steam turbine blades and fasteners GH3230 provides exceptional strength and corrosion resistance needed for critical components used at extreme temperatures across demanding industries. GH3230 Powder Standards

Standard	Description
AMS 5815	Nickel alloy powder compositions
AMS 5408	Wire, rods, bars of precipitation hardening nickel alloys
AMS 5698	Investment castings of PH nickel alloys
AMS 5772	Nickel alloy forgings
AMS 5634	Nickel alloy extruded shapes

These define: Chemical composition limits of GH3230 Required mechanical properties in different heat treatment conditions Approved powder production method – inert gas atomization Impurity limits for critical elements Compliance testing protocols Proper handling and storage instructions Meeting these certification requirements ensures optimal performance. GH3230 Powder Particle Sizes

Particle Size	Characteristics
10-22 microns	Ultrafine powder used in laser AM processes
22-45 microns	Size range for most powder bed AM systems
45-75 microns	Larger sizes used in laser cladding or thermal spraying

Finer powder provides higher resolution and surface finish in AM Coarser powder suitable for high deposition rate processes Size distribution tailored based on AM or other method used Spherical morphology maintained in all sizes Controlling particle size distribution and shape is critical for optimizing processing method performance and final part properties. GH3230 Powder Apparent Density

Apparent Density	Details
Up to 60% of true density	For spherical powder morphology
4.8 – 5.5 g/cc	Improves with greater packing density

Method	Details
Gas atomization	High pressure inert gas breaks up molten metal stream into fine droplets
Vacuum induction melting	High purity input materials melted under vacuum
Multiple remelting	Improves chemical homogeneity
Sieving	Classifies powder into different particle size fractions

Gas atomization with inert gas produces clean spherical powder Vacuum processing minimizes gaseous impurities Multiple remelts improve uniformity of composition Post-processing provides particle size distribution control Automated methods combined with strict quality control result in consistent GH3230 powder suitable for critical applications. GH3230 Powder Handling and Storage

Recommendation	Reason
Ensure proper ventilation	Avoid exposure to fine metallic particles
Use appropriate PPE	Prevent accidental inhalation or ingestion
Follow safe protocols	Reduce health and fire hazards
Store sealed containers	Prevent contamination or oxidation

GH3230 powder is relatively stable but general precautions are still recommended for safe handling and maintaining purity. Storage Recommendations Store in stable containers in a dry, cool area Limit exposure to moisture which can degrade properties Maintain temperatures below 30°C Proper precautions preserve powder condition and prevent safety issues. GH3230 Powder Inspection and Testing

Test	Details
Chemical analysis	OES or XRF spectroscopy used to verify composition
Particle size distribution	Laser diffraction analysis
Apparent density	Measured as per ASTM B212 standard
Powder morphology	SEM imaging of particle shape
Flow rate analysis	Gravity flow rate through specified nozzle
Moisture measurement	Loss on drying analysis

Testing ensures the powder meets the required chemical purity, particle characteristics, density specifications, morphology and flowability per relevant standards. GH3230 Powder Pros and Cons Advantages of GH3230 Powder Excellent high temperature strength and creep resistance Retains strength and hardness up to 1150°C Outstanding corrosion resistance across environments Good fatigue strength and fracture toughness High hardness combined with reasonable ductility Less dense than nickel superalloys Limitations of GH3230 Powder More expensive than stainless steel powders Requires controlled heat treatment for optimal properties Lower wear resistance than cobalt alloys Difficult to machine after sintering Limited cold heading and forming capability Subject to pitting in strongly oxidizing acids Comparison With Inconel 718 Powder GH3230 vs Inconel 718 Powder

Parameter	GH3230	Inconel 718
Density	8.3 g/cc	8.2 g/cc
Strength	Higher	Lower
Corrosion resistance	Excellent	Outstanding
Cost	Moderate	Very high
Uses	Oil and gas, chemical processing	Aerospace, nuclear

GH3230 provides higher tensile strength Inconel 718 offers better overall corrosion resistance GH3230 is more cost effective Inconel 718 is preferred for extreme environments GH3230 provides optimal strength and cost balance GH3230 Powder FAQs Q: What are the main applications of GH3230 nickel alloy powder? A: Main applications include aerospace turbine components, oil and gas wellhead valves and downhole tools, chemical processing equipment, power generation parts, and other high temperature components needing exceptional strength and corrosion resistance. Q: Why is GH3230 preferred over stainless steel powders in high temperature applications? A: GH3230 retains significantly higher strength compared to stainless steels at temperatures exceeding 650°C. It also provides excellent corrosion resistance in hot corrosive environments. Q: What precautions should be taken when working with GH3230 powder? A: Recommended precautions include ventilation, appropriate PPE, avoiding ignition sources, following safe handling protocols, and storing sealed containers away from moisture, air, and contamination. Q: How does chromium improve the properties of GH3230 alloy? A: Chromium provides substantial improvement in oxidation and corrosion resistance. It also forms fine precipitates during aging treatment which contribute to precipitation hardening and strengthening.

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GH3230 Powder

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GH3230 Powder

Product	GH3230 Powder
CAS No.	3230-94-2
Appearance	Metallic Gray Powder
Purity	≥99%, ≥99.9%, ≥95%(Other purities are also available)
APS	1-5 µM, 10-53 µM (Can be customized), Ask for other available size range.
Ingredient	Ni-Cr-Mo-W-Fe
Density	7.8g/cm3
Molecular Weight	N/A
Product Codes	NCZ-DCY-285/25

GH3230 Description:

GH3230 Powder Related Information :

Storage Conditions: Airtight sealed, avoid light and keep dry at room temperature. Please contact us for customization and price inquiry Email: contact@nanochemazone.com Note: We supply different size ranges of Nano and micron as per the client’s requirements and also accept customization in various parameters. GH3230 is a W-Mo reinforced nickel-based high-temperature alloy, which is usually used in an environment of 700-1000°C. GH3230 alloy has high high-temperature strength and good fatigue properties. And due to its excellent organizational stability, it has good anti-oxidation and anti-hot corrosion properties. GH3230 Powder is a W-Mo reinforced nickel-based high-temperature alloy, which is usually used in an environment of 700-1000°C. GH3230 alloy has high high-temperature strength and good fatigue properties. And due to its excellent organizational stability, it has good anti-oxidation and anti-hot corrosion properties, and is widely used in aerospace engine combustion chambers, ground gas turbine combustion chambers, and some high-temperature and corrosion-resistant components in the chemical industry. Physical Properties

Size range	Size distribution			Hall flow rate	Bulk density	Tap density
	D10(μm)	D50(μm)	D90(μm)
15-53μm	17-22	32-38	52-58	≤18s/50g	≥4.60g/cm³	≥5.20g/cm³

Heat Treatment Recommendations Hot isostatic pressing: 1200±20°C/160Mpa/3h Solution treatment: 1200±20°C/1h/AC Mechanical Behavior

Test temperature	Tensile strength (σb/Mpa)	Yield strength (σp0.2/Mpa)	Elongation (δ5/%)
25℃	840	450	35
815℃	250	200	35
1000℃	160	130	30

Chemical Composition Range (Wt,-%)

Element	C	Cr	Ni	Co	W	Mo
wt％	0.05-0.15	20.00-24.00	Bal	≤5.00	13.00-15.00	3.15-4.15
Element	Al	Ti	Fe	La	B	Mn
wt％	2.20-0.50	≤0.10	≤3.00	0.005-0.05	≤0.015	0.30-1.00
Element	Si	P	S	Cu	O	N
wt％	0.25-0.75	≤0.01	≤0.010	≤0.50	≤0.025	≤0.015

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GH3230 Powder

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GH3230 Powder

Product	GH3230 Powder
CAS No.	N/A
Appearance	Metallic Gray Powder
Purity	≥99%, ≥99.9%, ≥95%(Other purities are also available)
APS	1-5 µM, 10-53 µM (Can be customized), Ask for other available size range.
Ingredient	Ni-Cr-Mo-W-Fe
Density	5.44g/cm3
Molecular Weight	N/A
Product Codes	NCZ-DCY-231/25

GH3230 Description:

GH3230 Powder Related Information :

Storage Conditions: Airtight sealed, avoid light and keep dry at room temperature. Please contact us for customization and price inquiry Email: contact@nanochemazone.com Note: We supply different size ranges of Nano and micron as per the client’s requirements and also accept customization in various parameters. GH3230 Powder GH3230 is a W-Mo reinforced nickel-based high-temperature alloy, which is usually used in an environment of 700-1000°C. GH3230 alloy has high high-temperature strength and good fatigue properties. And due to its excellent organizational stability, it has good anti-oxidation and anti-hot corrosion properties. GH3230 Powder is a W-Mo reinforced nickel-based high-temperature alloy, which is usually used in an environment of 700-1000°C. GH3230 alloy has high high-temperature strength and good fatigue properties. And due to its excellent organizational stability, it has good anti-oxidation and anti-hot corrosion properties, and is widely used in aerospace engine combustion chambers, ground gas turbine combustion chambers, and some high-temperature and corrosion-resistant components in the chemical industry. Physical Properties

Size range	Size distribution			Hall flow rate	Bulk density	Tap density
	D10(μm)	D50(μm)	D90(μm)
15-53μm	17-22	32-38	52-58	≤18s/50g	≥4.60g/cm³	≥5.20g/cm³

Heat Treatment Recommendations Hot isostatic pressing: 1200±20°C/160Mpa/3h Solution treatment: 1200±20°C/1h/AC Mechanical Behavior

Test temperature	Tensile strength (σb/Mpa)	Yield strength (σp0.2/Mpa)	Elongation (δ5/%)
25℃	840	450	35
815℃	250	200	35
1000℃	160	130	30

Chemical Composition Range (Wt,-%)

Element	C	Cr	Ni	Co	W	Mo
wt％	0.05-0.15	20.00-24.00	Bal	≤5.00	13.00-15.00	3.15-4.15
Element	Al	Ti	Fe	La	B	Mn
wt％	2.20-0.50	≤0.10	≤3.00	0.005-0.05	≤0.015	0.30-1.00
Element	Si	P	S	Cu	O	N
wt％	0.25-0.75	≤0.01	≤0.010	≤0.50	≤0.025	≤0.015

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GH3536 Alloy Powder

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GH3536 Alloy Powder

Product	GH3536 Alloy Powder
CAS No.	N/A
Appearance	Gray to Metallic Silver Powder
Purity	≥99%, ≥99.9%, ≥95%(Other purities are also available)
APS	1-5 µM, 10-53 µM (Can be customized), Ask for other available size range.
Ingredient	Ni-Cr-Mo-Co-W
Density	8.3g/cm3
Molecular Weight	N/A
Product Codes	NCZ-DCY-286/25

GH3536 Alloy Description:

GH3536 Alloy Powder is one of the numerous advanced ceramic materials manufactured by Nanochemazone. Nanochemazone produces too many standard grades when applicable, including Mil Spec (military grade); ACS, Reagent and Technical Grade; Food, Agricultural and Pharmaceutical Grade; Optical Grade, USP and EP/BP (European Pharmacopoeia/British Pharmacopoeia) and follows applicable ASTM testing standards. Typical and custom packaging is available. Additional technical, research and safety (MSDS) information are available. Please request a quote above for more information on lead time and pricing

GH3536 Alloy Powder Related Information :

Storage Conditions: Airtight sealed, avoid light and keep dry at room temperature. Please contact us for customization and price inquiry Email: contact@nanochemazone.com Note: We supply different size ranges of Nano and micron as per the client’s requirements and also accept customization in various parameters. GH3536 Alloy Powder GH3536 alloy powder is a nickel-based superalloy powder used for additive manufacturing applications requiring high strength and corrosion resistance at elevated temperatures. As an advanced powder metallurgy product, GH3536 allows complex geometries to be fabricated using laser or electron beam-based metal 3D printing processes. GH3536 alloy powder was designed specifically for additive manufacturing, using composition optimization and powder atomization techniques to achieve superior properties compared to conventional nickel superalloys. The key features of GH3536 alloy powder include: High strength at temperatures up to 760°C (1400°F) Oxidation and corrosion resistance in harsh environments Excellent thermal fatigue life and crack growth resistance Good printability and low porosity in printed parts Can be age hardened to optimize strength and ductility The combination of properties make GH3536 suitable for aerospace, power generation, oil & gas, and chemical processing components exposed to extreme temperatures and stresses. Both new part fabrication and repair of worn components can benefit from using this advanced powder. GH3536 Alloy Powder Composition GH3536 has a complex composition designed to provide an optimal balance of properties. The nominal composition is shown below:

Element	Weight %
Nickel (Ni)	Balance
Chromium (Cr)	13.5 – 16.0
Cobalt (Co)	12.0 – 15.0
Tungsten (W)	5.0 – 7.0
Tantalum (Ta)	3.0 – 5.0
Aluminum (Al)	2.8 – 3.8
Titanium (Ti)	0.5 – 1.5
Niobium (Nb)	0.5 – 1.5
Hafnium (Hf)	0.2 – 0.8
Carbon (C)	0.05 – 0.15
Boron (B)	0.01 – 0.03
Zirconium (Zr)	0.01 – 0.05

Nickel forms the matrix, while elements like chromium, cobalt, and aluminum improve oxidation resistance. Refractory elements tantalum, tungsten, niobium, and hafnium contribute to strength at elevated temperatures. Titanium and niobium strengthen the alloy through carbide formation. Trace amounts of carbon, boron, and zirconium enhance precipitation hardening. The powder composition is designed to limit segregation and maintain composition uniformity during printing, ensuring consistent properties in the final part. The spherical powder morphology also improves flowability and packing density for good printability. GH3536 Alloy Powder Properties GH3536 exhibits an excellent combination of strength, ductility, and environmental resistance owing to its tailored composition and optimized production process. The key properties are summarized below: Mechanical Properties

Property	As-printed	Aged
Tensile Strength	1050 – 1250 MPa (152 – 181 ksi)	1275 – 1400 MPa (185 – 203 ksi)
Yield Strength (0.2% offset)	900 – 1100 MPa (131 – 160 ksi)	1150 – 1300 MPa (167 – 189 ksi)
Elongation	25 – 35%	16 – 22%
Hardness	32 – 38 HRC	36 – 43 HRC

Physical Properties

Property	Typical Value
Density	8.3 g/cm3
Melting Point	1310°C (2390°F)

Thermal Properties

Property	Temperature
Coefficient of Thermal Expansion	12.8 x 10-6/°C at 20-100°C
Thermal Conductivity	11.4 W/m-K at 20°C
Specific Heat	0.43 J/g-°C at 20°C

Oxidation Resistance Resists oxidation in air up to ~980°C. Protective Cr2O3 oxide scale forms. Better oxidation resistance than Inconel 718 and many other Ni alloys. Corrosion Resistance Excellent resistance to hot corrosion and sulfidation. Resists many organic acids, chlorides, caustics. Other Properties Retains strength and ductility after prolonged exposures up to 760°C. Excellent thermal fatigue life. Resists crack growth. Low coefficient of friction and galling resistance. The strength of GH3536 in the aged condition exceeds that of conventional nickel superalloys like Inconel 718 while maintaining robust ductility. The alloy is stronger than many stainless steels at high temperatures. Oxidation resistance approaches that of nickel-chromium alloys like Inconel 601. Overall, GH3536 provides an exceptional balance of properties for critical applications. Applications of GH3536 Alloy Powder The combination of strength, environmental resistance, printability, and ease of post-processing makes GH3536 suitable for: Aerospace Components Turbine blades, vanes, combustors Structural parts, landing gear Rocket engine nozzles, thrusters Hypersonic vehicle hot structures Power Generation Gas turbine hot section parts Heat exchangers, recuperators Heat shields, thermowells Oil & Gas Downhole tools, wellhead parts Valves, pumps for corrosive services Automotive Turbocharger wheels and housings Exhaust components Chemical Processing Valves, pumps, reaction vessels Heat exchanger tubing Tooling Injection molds with conformal cooling Die casting dies, hot stamping tools Others Heating elements Radioactive waste containers Specialty fasteners and springs GH3536 can replace existing parts made of lower performance materials to improve durability and efficiency. The powder is also ideal for fabricating new designs not possible with conventional manufacturing. Both new part production and repair/refurbishment of worn components are enabled. Printing GH3536 Alloy Powder GH3536 powder can be successfully printed using laser powder bed fusion (L-PBF) and electron beam powder bed fusion (E-PBF) processes. The spherical powder morphology provides good flow and packing. Key considerations include: Printing Process Laser and electron beam powder bed technologies applicable. Process parameters require development for new machines. Inert gas chamber atmosphere (argon or nitrogen). Powder specification Particle size range 10-45 μm, D50 ~25 μm typical. Apparent density 2.5-3.5 g/cm3. Flow rate 25-35 s (Hall flowmeter). Printing Recommendations Preheating baseplate to ~150°C reduces thermal stresses. Scan speeds from 400-1000 mm/s are typical. Hatch spacing 0.08-0.12 mm for good densification. 100% fresh powder for reuse. Post Processing Stress relieving: 1080°C/2hr, air cool. Aging: 760°C/8-16 hr, air cool. Hot isostatic pressing can further reduce porosity. With parameter optimization, densities over 99.8% are possible. The microstructure consists of fine, uniform grains suitable for critical applications. Specifications of GH3536 Powder GH3536 alloy powder is commercially available in the standard size distribution and classes summarized below. Custom variations can also be produced.

Powder Size Distribution
D10	10 μm
D50	25 μm
D90	45 μm

Powder Classes	Nominal Flow Rate	Apparent Density
Class I	25 s	2.5 g/cm3
Class II	28 s	2.8 g/cm3
Class III	32 s	3.2 g/cm3

Other specifications: Spherical morphology with satellite fraction under 1%. Oxygen content under 100 ppm. No binders or lubricants added. Each powder lot is provided with a Certificate of Analysis detailing composition, particle characteristics, flow rate, and other parameters. Handling and Storage of GH3536 To maintain powder quality during handling and storage: Store sealed powder containers in a cool, dry environment. Desiccant is recommended. Avoid exposing powder to moisture which can cause clumping and flow issues. Limit temperature excursions during transport and storage. Open containers only in an inert atmosphere glove box or argon chamber. Immediately process open containers to limit oxidation. Do not reuse exposed powder. Use appropriate PPE and avoid inhalation or contact with skin and eyes. With proper handling, GH3536 powder has a shelf life exceeding one year from manufacture date. FIFO inventory management is recommended. Safety Data for GH3536 As an alloy powder containing nickel and other elements, standard safety precautions should be taken during handling: Use PPE: Powder suitable respirator, gloves, eye protection, protective clothing. Avoid skin contact or inhalation of dusts during handling. Properly ground all powder handling equipment. Inert gas glove boxes recommended. Use dust collection during cleanup. Avoid generating airborne dust. Dispose of excess powder and cleanup debris appropriately. Refer to SDS document for additional safety information. Nickel powder is classified as a suspected carcinogen. Follow all laws and regulations for safe metal powder handling. Inspection of GH3536 Powder To ensureGH3536 powder meets application requirements, the following inspection procedures can be used: Particle Size Distribution Laser diffraction analysis (ISO 13320) Sieve analysis (ASTM B214) Morphology & Microstructure Scanning electron microscopy Optical microscopy of mounted and polished specimens Powder Composition Inductively coupled plasma mass spectrometry (ASTM E1097) Inert gas fusion for O and N (ASTM E1019) Powder Density Apparent density (Hall flowmeter) Tap density (ASTM B527) Powder Flowability Hall flowmeter (ASTM B213) Revolution powder analyzer Lot Acceptance Sampling per ASTM B215 Verify powder meets size, composition, morphology specifications Testing should be conducted for each powder lot to verify conformance to applicable ASTM standards. This ensures consistent, high quality powder feedstock for printing. FAQs Q: What makes GH3536 better than other Ni superalloys for AM? A: GH3536 has higher strength than workhorse alloys like Inconel 718 while maintaining ductility. The powder composition and atomization process minimize segregation and porosity. Q: Does GH3536 require hot isostatic pressing (HIP) after printing? A: HIP can further reduce internal porosity but is not required to achieve high densities (>99.5%) with optimized AM parameters. HIP may allow higher service temperatures. Q: What post processing is required after printing GH3536? A: A simple stress relief heat treatment can be used after printing. For optimal strength, an aging heat treatment is recommended. Q: What are the lead times for purchasing GH3536 powder? A: Small lots can ship in 2-4 weeks. Allow 3-5 months for large production volumes depending on availability. Q: Does GH3536 contain aluminum or titanium to cause issues during printing? A: The Al and Ti concentrations are balanced to avoid powder oxidation or excessive reaction with the melt pool during printing. Q: What particle size distribution is recommended for printing GH3536? A: A distribution with D10 of 10 μm, D50 of 25 μm, and D90 of 45 μm provides a good balance of flowability and printing. Q: Can GH3536 be used for printing parts with overhangs and complex geometries? A: Yes, GH3536 has demonstrated excellent printability for parts with overhangs exceeding 45° overhang angle.

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GH3536 Alloy Powder

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GH3536 Alloy Powder

Product	GH3536 Alloy Powder
CAS No.	N/A
Appearance	Metallic Gray Powder
Purity	≥99%, ≥99.9%, ≥95%(Other purities are also available)
APS	1-5 µM, 10-53 µM (Can be customized), Ask for other available size range.
Ingredient	Ni-Cr-Mo-Co-W
Density	8.3g/cm3
Molecular Weight	N/A
Product Codes	NCZ-DCY-233/25

GH3536 Alloy Description:

GH3536 Alloy Powder Related Information :

Storage Conditions: Airtight sealed, avoid light and keep dry at room temperature. Please contact us for customization and price inquiry Email: contact@nanochemazone.com Note: We supply different size ranges of Nano and micron as per the client’s requirements and also accept customization in various parameters. GH3536 Alloy Powder GH3536 alloy powder is a nickel-based superalloy powder used for additive manufacturing applications requiring high strength and corrosion resistance at elevated temperatures. As an advanced powder metallurgy product, GH3536 allows complex geometries to be fabricated using laser or electron beam-based metal 3D printing processes. GH3536 alloy powder was designed specifically for additive manufacturing, using composition optimization and powder atomization techniques to achieve superior properties compared to conventional nickel superalloys. The key features of GH3536 alloy powder include: High strength at temperatures up to 760°C (1400°F) Oxidation and corrosion resistance in harsh environments Excellent thermal fatigue life and crack growth resistance Good printability and low porosity in printed parts Can be age hardened to optimize strength and ductility The combination of properties make GH3536 suitable for aerospace, power generation, oil & gas, and chemical processing components exposed to extreme temperatures and stresses. Both new part fabrication and repair of worn components can benefit from using this advanced powder. GH3536 Alloy Powder Composition GH3536 has a complex composition designed to provide an optimal balance of properties. The nominal composition is shown below:

Element	Weight %
Nickel (Ni)	Balance
Chromium (Cr)	13.5 – 16.0
Cobalt (Co)	12.0 – 15.0
Tungsten (W)	5.0 – 7.0
Tantalum (Ta)	3.0 – 5.0
Aluminum (Al)	2.8 – 3.8
Titanium (Ti)	0.5 – 1.5
Niobium (Nb)	0.5 – 1.5
Hafnium (Hf)	0.2 – 0.8
Carbon (C)	0.05 – 0.15
Boron (B)	0.01 – 0.03
Zirconium (Zr)	0.01 – 0.05

Property	As-printed	Aged
Tensile Strength	1050 – 1250 MPa (152 – 181 ksi)	1275 – 1400 MPa (185 – 203 ksi)
Yield Strength (0.2% offset)	900 – 1100 MPa (131 – 160 ksi)	1150 – 1300 MPa (167 – 189 ksi)
Elongation	25 – 35%	16 – 22%
Hardness	32 – 38 HRC	36 – 43 HRC

Physical Properties

Property	Typical Value
Density	8.3 g/cm3
Melting Point	1310°C (2390°F)

Thermal Properties

Property	Temperature
Coefficient of Thermal Expansion	12.8 x 10-6/°C at 20-100°C
Thermal Conductivity	11.4 W/m-K at 20°C
Specific Heat	0.43 J/g-°C at 20°C

Powder Size Distribution
D10	10 μm
D50	25 μm
D90	45 μm

Powder Classes	Nominal Flow Rate	Apparent Density
Class I	25 s	2.5 g/cm3
Class II	28 s	2.8 g/cm3
Class III	32 s	3.2 g/cm3

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GH4169 Powder

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GH4169 Powder

Product	GH4169 Powder
CAS No.	7440-02-0
Appearance	Silver-Gray Powder
Purity	≥99%, ≥99.9%, ≥95%(Other purities are also available)
APS	1-5 µM, 10-53 µM (Can be customized), Ask for other available size range.
Ingredient	NiCr22Mo9Nb
Density	8.44g/cm3
Molecular Weight	N/A
Product Codes	NCZ-DCY-235/25

GH4169 Description:

GH4169 Powder is one of the numerous advanced ceramic materials manufactured by Nanochemazone. Nanochemazone produces too many standard grades when applicable, including Mil Spec (military grade); ACS, Reagent and Technical Grade; Food, Agricultural and Pharmaceutical Grade; Optical Grade, USP and EP/BP (European Pharmacopoeia/British Pharmacopoeia) and follows applicable ASTM testing standards. Typical and custom packaging is available. Additional technical, research and safety (MSDS) information are available. Please request a quote above for more information on lead time and pricing

GH4169 Powder Related Information :

Size Range	15-45um/15-53um/20-63 um	45-105um
Form	Spherical	Spherical
Flow Ability	≤25s
Apparent Density	≥4.0 g/c㎡
Oxygen Content	≤200 ppm
Nitrogen Content	≤150ppm

Key characteristics of GH4169 powder: GH4169 Powder Properties

Properties	Details
Composition	Fe-17Cr-4Ni-1.5Ti-0.7Al-0.25Nb alloy
Density	7.9 g/cc
Particle shape	Irregular, angular
Size range	10-150 microns
Apparent density	Up to 50% of true density
Flowability	Moderate
Strength	Very high after aging treatment
Corrosion resistance	Excellent, including marine environments

GH4169’s exceptional strength-to-weight ratio combined with outstanding corrosion resistance make it suitable for critical structural parts across aerospace, marine, nuclear and other demanding applications. GH4169 Powder Composition

Element	Weight %
Iron (Fe)	Balance
Chromium (Cr)	16-18%
Nickel (Ni)	3.5-5.5%
Titanium (Ti)	1.2-1.8%
Aluminum (Al)	0.3-1.2%
Niobium (Nb)	0.15-0.45%
Carbon (C)	0.04% max
Silicon (Si), Manganese (Mn)	1% max each

Iron provides the ferritic matrix Chromium improves corrosion and oxidation resistance Nickel, aluminum, titanium and niobium facilitate precipitation hardening Carbon and other elements limited as tramp impurities The composition is designed to maximize the precipitation hardening response and corrosion resistance required in structural applications. GH4169 Powder Physical Properties

Property	Values
Density	7.9 g/cc
Melting point	1400-1450°C
Electrical resistivity	0.80 μΩ-m
Thermal conductivity	12 W/mK
Thermal expansion	12 x 10^-6 /K
Maximum service temperature	650°C

High strength-to-weight ratio Retains strength and hardness up to 650°C Relatively low thermal conductivity Resistivity increases after precipitation hardening Moderate expansion coefficient The properties allow use of GH4169 in load bearing structural applications requiring corrosion resistance and high temperature strength. GH4169 Powder Mechanical Properties

Property	Condition	Values
Hardness	Solution annealed	90 HRB
Hardness	Peak aged	40-45 HRC
Tensile strength	Annealed	550-750 MPa
Tensile strength	Peak aged	1300-1600 MPa
Yield strength	Peak aged	1100-1400 MPa
Elongation	Peak aged	8-13%

Ages to high strength levels exceeding other precipitation hardening stainless steels Retains good ductility in peak aged condition Significant increase in hardness after aging treatment Strength can be tailored through aging time and temperature These properties make GH4169 suitable for lightweight, high strength structural parts needing corrosion resistance. GH4169 Powder Applications

Industry	Example Uses
Aerospace	Airframe and engine components, fasteners
Marine	Shafts, fixtures, solenoids, valves
Nuclear	Fuel element cladding, internal structures
Oil and gas	Structural parts for wellheads, offshore platforms
Chemical	Process equipment like vessels and pipes

Some specific uses: Bolts, nuts, screws, and studs needing high strength Critical rotating shaft components Valve and pump bodies used in corrosive environments Mixing equipment like impellers and agitators Nuclear fuel element cladding and vessel internals GH4169 provides an exceptional combination of strength, hardness and corrosion resistance required in critical structural parts across demanding industries. GH4169 Powder Standards

Standard	Description
AMS 5922	Precipitation hardening stainless steel powder for aerospace parts
ASTM A580	Standard for precipitation hardening stainless steel wire
ASTM A638	Standard for precipitation hardening iron-based superalloys
AMS 5898	Bars, forgings, rings of precipitation hardening stainless steels

These define: Chemical composition of GH4169 alloy Permissible impurities like C, S and P Required mechanical properties in different conditions Approved powder production methods Compliance testing protocols Quality assurance requirements Powder produced to these standards ensures optimal aging response, ductility, and corrosion resistance. GH4169 Powder Particle Size Distribution

Particle Size	Characteristics
10-22 microns	Ultrafine grade for high density
22-75 microns	Most commonly used size range
75-150 microns	Coarser sizes for improved flowability

Finer particles promote higher sintered density Coarser particles improve powder flow into die cavities Gas atomization and water atomization both used Size distribution tailored to final part properties needed Controlling particle size distribution optimizes pressing behavior, final density, and mechanical performance. GH4169 Powder Apparent Density

Apparent density	Details
Up to 50% of true density	For irregular powder morphology
4.5-5.5 g/cc	Higher for spherical powders

Spherical powders provide higher apparent density Irregular particles have density around 45% Higher apparent density improves powder flow and compressibility Allows higher green density after compaction Higher powder apparent density leads to better manufacturing productivity and part performance. GH4169 Powder Production Method

Method	Details
Gas atomization	High pressure inert gas breaks up molten metal stream into fine droplets
Water atomization	High pressure water jet breaks metal into fine particles
Vacuum induction melting	High purity input materials melted under vacuum
Multiple remelting	Improves chemical homogeneity
Sieving	Classifies powder into different particle size ranges

Gas atomization provides spherical powder shape Water atomization is lower cost but irregular particles Vacuum processing minimizes gaseous impurities Post-processing allows particle size control Fully automated methods combined with strict quality control ensure reliable and consistent powder suitable for critical applications. GH4169 Powder Handling and Storage

Recommendation	Reason
Ensure proper ventilation	Prevent exposure to fine metallic particles
Avoid ignition sources	Powder can combust in oxygen atmosphere
Follow safe protocols	Reduce health and fire hazards
Use non-sparking tools	Prevent possibility of ignition
Store sealed containers	Prevent contamination or oxidation

Storage Recommendations Store in stable containers in a dry, cool area Limit exposure to moisture and acids Maintain temperatures below 30°C With proper precautions during handling and storage, GH4169 powder remains stable and safe to work with. GH4169 Powder Testing

Test	Details
Chemical analysis	ICP and XRF verify composition
Particle size analysis	Determines particle size distribution
Apparent density	Measured as per ASTM B212 standard
Powder morphology	SEM imaging of particle shape
Flow rate testing	Gravity flow rate through specified funnel
Loss on ignition	Determines moisture content

Testing ensures the powder meets the required composition, particle characteristics, density specifications, morphology and flow rate as per applicable standards. GH4169 Powder Pros and Cons Advantages of GH4169 Powder Exceptional strength after precipitation hardening Retains good ductility in peak aged condition Excellent corrosion resistance including marine environments High strength maintained up to 650°C Good combinations of properties for critical structural parts More cost-effective than superalloys Limitations of GH4169 Powder Requires careful heat treatment for optimal properties Lower fracture toughness than austenitic steels Subject to sensitization during improper welding Limited cold heading and forming capability Strength and corrosion resistance not as high as superalloys Price higher than common stainless steel grades Comparison With 17-4PH and 15-5PH Powder GH4169 vs. 17-4PH and 15-5PH Powder

Parameter	GH4169	17-4PH	15-5PH
Density	7.9 g/cc	7.7 g/cc	7.8 g/cc
Hardness	40-45 HRC	38-45 HRC	36-42 HRC
Tensile strength	1300-1600 MPa	1200-1450 MPa	1050-1400 MPa
Corrosion resistance	Excellent	Very good	Good
Cost	High	Moderate	Low

GH4169 has highest strength after aging treatment It also provides the best corrosion resistance 17-4PH is moderately stronger than 15-5PH 15-5PH is the most economical of the three GH4169 preferred for critical structural applications GH4169 Powder FAQs Q: What are the main applications of GH4169 precipitation hardening stainless steel powder? A: Main applications include aerospace structures, marine components like shafts and valves, nuclear fuel element cladding, oil and gas wellhead parts, chemical process equipment, and other structural parts needing high strength and corrosion resistance. Q: What is the role of aluminum and titanium in GH4169 composition? A: Aluminum and titanium facilitate precipitation hardening by forming fine coherent precipitates during aging treatment. This imparts substantial strengthening while retaining reasonable ductility. Q: What precautions are needed when working with GH4169 powder? A: Recommended precautions include ventilation, avoiding ignition sources, using non-sparking tools, protective gear, following safe protocols, and storing sealed containers away from contaminants or moisture. Q: How does GH4169 differ from martensitic and ferritic stainless steel grades? A: GH4169 can be aged to much higher strength levels compared to martensitic or ferritic grades. It also provides excellent corrosion resistance including in marine environments, unlike martensitic grades.

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GH4169 Powder

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GH4169 Powder

Product	GH4169 Powder
CAS No.	7440-02-0
Appearance	Silver-Gray Powder
Purity	≥99%, ≥99.9%, ≥95%(Other purities are also available)
APS	1-5 µM, 10-53 µM (Can be customized), Ask for other available size range.
Ingredient	NiCr22Mo9Nb
Density	8.2g/cm3
Molecular Weight	N/A
Product Codes	NCZ-DCY-236/25

GH4169 Description:

GH4169 Powder Related Information :

Metal Powder	Size	Quantity	Price/kg	Size	Quantity	Price/kg
Inconel 718	0-20μm	1KG	60.9	53-105μm	1KG	59
		10KG	39.8		10KG	38
		100KG	34.5		100KG	33

GH4169 is a Nb-Mo reinforced nickel-based high-temperature alloy. Its normal working environment is 253-650C. It has good mechanical properties below 650C. Under special circumstances, GH4169 can be used at 800°C for a short period of time. GH4169 is suitable for many high temperature applications, such as gas turbine components. Physical properties

Size range	Size distribution			Hall flow rate	Bulk density	Tap density
	D10(μm)	D50(μm)	D90(μm)
15-53μm	17-22	32-38	52-58	≤18s/50g	≥4.20g/cm³	≥4.80g/cm³

Heat treatment recommendations 980-1060°C/1h/AC+720°C±10°C/8h/F一620C10C/8h/AC Mechanical behavior

815°C high temperature durability performance
Constant stress (δ/Mpa)	Duration(t/h)		Elongation after break(δ5/%)
690	80		5
Test temperature	Tensile strength (σb/Mpa)	Yield strength (σp0.2/Mpa)	Elongation (δ5/%)
25℃	1270	1030	12
650℃	1000	860	12

Chemical composition range (wt,-%)

Element	C	Cr	Ni	Co	Nb	Mo
wt％	0.02-0.06	17.00-21.00	50.00-55.00	≤1.00	4.75-5.50	2.80-3.30
Element	Al	Ti	Fe	B	Mg	Mn
wt％	0.20-0.80	0.65-1.15	Bal	≤0.006	≤0.010	≤0.35
Element	Si	P	S	Cu	O	N
wt％	≤0.35	≤0.015	≤0.015	≤0.30	≤0.020	≤0.015

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GH4169 Powder

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GH4169 Powder

Product	GH4169 Powder
CAS No.	7440-02-0
Appearance	Gray Dull Silver Powder
Purity	≥99%, ≥99.9%, ≥95%(Other purities are also available)
APS	1-5 µM, 10-53 µM (Can be customized), Ask for other available size range.
Ingredient	NiCr22Mo9Nb
Density	8.19g/cm3
Molecular Weight	N/A
Product Codes	NCZ-DCY-289/25

GH4169 Description:

GH4169 Powder Related Information :

Size Range	15-45um/15-53um/20-63 um	45-105um
Form	Spherical	Spherical
Flow Ability	≤25s
Apparent Density	≥4.0 g/c㎡
Oxygen Content	≤200 ppm
Nitrogen Content	≤150ppm

Key characteristics of GH4169 powder: GH4169 Powder Properties

Properties	Details
Composition	Fe-17Cr-4Ni-1.5Ti-0.7Al-0.25Nb alloy
Density	7.9 g/cc
Particle shape	Irregular, angular
Size range	10-150 microns
Apparent density	Up to 50% of true density
Flowability	Moderate
Strength	Very high after aging treatment
Corrosion resistance	Excellent, including marine environments

Element	Weight %
Iron (Fe)	Balance
Chromium (Cr)	16-18%
Nickel (Ni)	3.5-5.5%
Titanium (Ti)	1.2-1.8%
Aluminum (Al)	0.3-1.2%
Niobium (Nb)	0.15-0.45%
Carbon (C)	0.04% max
Silicon (Si), Manganese (Mn)	1% max each

Property	Values
Density	7.9 g/cc
Melting point	1400-1450°C
Electrical resistivity	0.80 μΩ-m
Thermal conductivity	12 W/mK
Thermal expansion	12 x 10^-6 /K
Maximum service temperature	650°C

Property	Condition	Values
Hardness	Solution annealed	90 HRB
Hardness	Peak aged	40-45 HRC
Tensile strength	Annealed	550-750 MPa
Tensile strength	Peak aged	1300-1600 MPa
Yield strength	Peak aged	1100-1400 MPa
Elongation	Peak aged	8-13%

Industry	Example Uses
Aerospace	Airframe and engine components, fasteners
Marine	Shafts, fixtures, solenoids, valves
Nuclear	Fuel element cladding, internal structures
Oil and gas	Structural parts for wellheads, offshore platforms
Chemical	Process equipment like vessels and pipes

Standard	Description
AMS 5922	Precipitation hardening stainless steel powder for aerospace parts
ASTM A580	Standard for precipitation hardening stainless steel wire
ASTM A638	Standard for precipitation hardening iron-based superalloys
AMS 5898	Bars, forgings, rings of precipitation hardening stainless steels

Particle Size	Characteristics
10-22 microns	Ultrafine grade for high density
22-75 microns	Most commonly used size range
75-150 microns	Coarser sizes for improved flowability

Apparent density	Details
Up to 50% of true density	For irregular powder morphology
4.5-5.5 g/cc	Higher for spherical powders

Method	Details
Gas atomization	High pressure inert gas breaks up molten metal stream into fine droplets
Water atomization	High pressure water jet breaks metal into fine particles
Vacuum induction melting	High purity input materials melted under vacuum
Multiple remelting	Improves chemical homogeneity
Sieving	Classifies powder into different particle size ranges

Recommendation	Reason
Ensure proper ventilation	Prevent exposure to fine metallic particles
Avoid ignition sources	Powder can combust in oxygen atmosphere
Follow safe protocols	Reduce health and fire hazards
Use non-sparking tools	Prevent possibility of ignition
Store sealed containers	Prevent contamination or oxidation

Test	Details
Chemical analysis	ICP and XRF verify composition
Particle size analysis	Determines particle size distribution
Apparent density	Measured as per ASTM B212 standard
Powder morphology	SEM imaging of particle shape
Flow rate testing	Gravity flow rate through specified funnel
Loss on ignition	Determines moisture content

Parameter	GH4169	17-4PH	15-5PH
Density	7.9 g/cc	7.7 g/cc	7.8 g/cc
Hardness	40-45 HRC	38-45 HRC	36-42 HRC
Tensile strength	1300-1600 MPa	1200-1450 MPa	1050-1400 MPa
Corrosion resistance	Excellent	Very good	Good
Cost	High	Moderate	Low

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GH4169 Powder

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GH4169 Powder

Product	GH4169 Powder
CAS No.	7440-02-0
Appearance	Gray Dull Silver Powder
Purity	≥99%, ≥99.9%, ≥95%(Other purities are also available)
APS	1-5 µM, 10-53 µM (Can be customized), Ask for other available size range.
Ingredient	NiCr22Mo9Nb
Density	8.19g/cm3
Molecular Weight	N/A
Product Codes	NCZ-DCY-290/25

GH4169 Description:

GH4169 Powder Related Information :

Metal Powder	Size	Quantity	Price/kg	Size	Quantity	Price/kg
Inconel 718	0-20μm	1KG	60.9	53-105μm	1KG	59
		10KG	39.8		10KG	38
		100KG	34.5		100KG	33

Size range	Size distribution			Hall flow rate	Bulk density	Tap density
	D10(μm)	D50(μm)	D90(μm)
15-53μm	17-22	32-38	52-58	≤18s/50g	≥4.20g/cm³	≥4.80g/cm³

Heat treatment recommendations 980-1060°C/1h/AC+720°C±10°C/8h/F一620C10C/8h/AC Mechanical behavior

815°C high temperature durability performance
Constant stress (δ/Mpa)	Duration(t/h)	Elongation after break(δ5/%)
690	80	5
Test temperature	Tensile strength (σb/Mpa)	Yield strength (σp0.2/Mpa)	Elongation (δ5/%)
25℃	1270	1030	12
650℃	1000	860	12

Chemical composition range (wt,-%)

Element	C	Cr	Ni	Co	Nb	Mo
wt％	0.02-0.06	17.00-21.00	50.00-55.00	≤1.00	4.75-5.50	2.80-3.30
Element	Al	Ti	Fe	B	Mg	Mn
wt％	0.20-0.80	0.65-1.15	Bal	≤0.006	≤0.010	≤0.35
Element	Si	P	S	Cu	O	N
wt％	≤0.35	≤0.015	≤0.015	≤0.30	≤0.020	≤0.015

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GH5188 Powder

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GH5188 Powder

Product	GH5188 Powder
CAS No.	7440-48-4
Appearance	Silver-Gray Powder
Purity	≥99%, ≥99.9%, ≥95%(Other purities are also available)
APS	1-5 µM, 10-53 µM (Can be customized), Ask for other available size range.
Ingredient	CoCrNiW
Density	4.80g/cm3
Molecular Weight	N/A
Product Codes	NCZ-DCY-237/25

GH5188 Description:

GH5188 Powder is one of the numerous advanced ceramic materials manufactured by Nanochemazone. Nanochemazone produces too many standard grades when applicable, including Mil Spec (military grade); ACS, Reagent and Technical Grade; Food, Agricultural and Pharmaceutical Grade; Optical Grade, USP and EP/BP (European Pharmacopoeia/British Pharmacopoeia) and follows applicable ASTM testing standards. Typical and custom packaging is available. Additional technical, research and safety (MSDS) information are available. Please request a quote above for more information on lead time and pricing

GH1588 Powder Related Information :

Size range	Size distribution			Hall flow rate	Bulk density	Tap density
	D10(μm)	D50(μm)	D90(μm)
15-53μm	17-22	32-38	52-58	≤18s/50g	≥4.80g/cm³	≥5.40g/cm³

Heat Treatment Recommendations Solid solution treatment:1180±20°C/1h/AC Mechanical Behavior

Test temperature	Tensile strength (σb/Mpa)	Yield strength (σp0.2/Mpa)	Elongation (δ5/%)
25℃	900	400	≥45
650℃	650	280	≥50
900℃	300	240	≥50
950℃	200	170	≥50
1000℃	160	130	≥50

Chemical Composition Range (Wt,-%)

Element	C	Cr	Ni	Co	W	Fe
wt％	0.05-0.15	20.00-24.00	20.00-24.00	Bal	13.00-16.00	≤3.00
Element	B	La	Mn	Si	P	S
wt％	≤0.015	0.03-0.12	≤1.25	0.20-0.50	≤0.02	≤0.015
Element	Cu	O	N	–	–	–
wt％	≤0.07	≤0.025	≤0.015	–	–	–

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GH5188 Powder

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GH5188 Powder

Product	GH5188 Powder
CAS No.	N/A
Appearance	Metallic Gray or Dark Gray Powder
Purity	≥99%, ≥99.9%, ≥95%(Other purities are also available)
APS	1-5 µM, 10-53 µM (Can be customized), Ask for other available size range.
Ingredient	CoCrNiW
Density	9.10g/cm3
Molecular Weight	N/A
Product Codes	NCZ-DCY-291/25

GH5188 Description:

GH5188 Powder Related Information :

Size range	Size distribution			Hall flow rate	Bulk density	Tap density
	D10(μm)	D50(μm)	D90(μm)
15-53μm	17-22	32-38	52-58	≤18s/50g	≥4.80g/cm³	≥5.40g/cm³

Heat Treatment Recommendations Solid solution treatment:1180±20°C/1h/AC Mechanical Behavior

Test temperature	Tensile strength (σb/Mpa)	Yield strength (σp0.2/Mpa)	Elongation (δ5/%)
25℃	900	400	≥45
650℃	650	280	≥50
900℃	300	240	≥50
950℃	200	170	≥50
1000℃	160	130	≥50

Chemical Composition Range (Wt,-%)

Element	C	Cr	Ni	Co	W	Fe
wt％	0.05-0.15	20.00-24.00	20.00-24.00	Bal	13.00-16.00	≤3.00
Element	B	La	Mn	Si	P	S
wt％	≤0.015	0.03-0.12	≤1.25	0.20-0.50	≤0.02	≤0.015
Element	Cu	O	N	–	–	–
wt％	≤0.07	≤0.025	≤0.015	–	–	–

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Glass Bead Powder

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Glass Bead Powder

Product	Glass Bead Powder
CAS No.	65997-17-3
Appearance	White Powder
Purity&nbsp	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS&nbsp&nbsp	1-5 µM, 10-53 µM (Can be customized), Ask for other available size range.
Ingredient	Na2O-CaO-SiO2
Density	2.5g/cm3
Molecular Weight	N/A
Product Codes	NCZ-MNO-129/25

Glass Bead Description:

Glass Bead Powder is one of the numerous advanced ceramic materials manufactured by Nanochemazone. Nanochemazone produces too many standard grades when applicable, including Mil Spec (military grade); ACS, Reagent and Technical Grade; Food, Agricultural and Pharmaceutical Grade; Optical Grade, USP and EP/BP (European Pharmacopoeia/British Pharmacopoeia) and follows applicable ASTM testing standards. Typical and custom packaging is available. Additional technical, research and safety (MSDS) information are available. Please request a quote above for more information on lead time and pricing

Glass Bead Powder Related Information :

Catalog No.	NCZ-MNO-129/25
Compositions	SiO2/MgO/CaO/Mn2O3
Size	Dia 0.4-20mm
Form	Bead
Minimum Order Quantity (MOQ)	25kg/drum

Glass Beads are manufactured using advanced processing techniques, including direct melting of new glass through titration, forming in deionized water, high-temperature hardening, and subsequent polishing. It proudly offers Glass Beads as a robust solution for your milling needs, ensuring quality and consistency in every application. Glass Bead Description Glass Beads are manufactured using advanced processing techniques, including direct melting of new glass through titration, forming in deionized water, high-temperature hardening, and subsequent polishing. The sphericity is 100%, with no air bubbles inside the beads, providing excellent wear resistance. This product is ideal for economically dispersing and grinding low-viscosity slurries and serves as a cost-effective configuration for traditional sand mills. Glass Bead Specification

Specific Gravity	2.5kg/dm3
Bulk Density	1.5kg/L
Mohs Hardness	≥6
Vickers hardness	630kg/mm2
Elastic Modulus	63Gpa
Minimum Order Quantity (MOQ)	25kg/drum

Chemical Composition

Chemical Composition	SiO2	Na2O	CaO	Al2O3	MgO	Others
Wt%	70	14	12	1	2	1

Specification Bead

Model	Diameter (φ) mm
NS4	0.40-0.60
NS5	0.50-0.75
NS7.5	0.75-1.00
NS10	1.00-1.30
NS12.5	1.25-1.55
NS15.5	1.55-1.85
NS17	1.70-2.00
NS20	2.00-2.40
NS24	2.40-2.85
NS28.5	2.85-3.35
NS30	3.00-3.50
NS35	3.50-4.00

Ball

Model	Diameter (φ) mm
NSB8	8
NSB9	9
NSB10	10
NSB11	11
NSB12	12
NSB13	13
NSB14	14
NSB15	15
NSB16	16
NSB17	17.0
NSB18	18
NSB20	20

*The size can be customized according to customer requirements. Glass Bead Applications Grinding Media: Used in the chemical and biological industries for pigments, dyes, paints, inks, varnishes, pesticides, and pharmaceuticals. Filtration Media: Serve as filtration media, catalyst carriers, and polishing and cleaning agents. Sealing Components: High-precision glass balls can be used as sealing components. Glass Bead Packing 25kg/drum, Packaged in composite woven bags or drums.

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Gold Acetate Powder

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Gold Acetate Powder

Product	Gold Acetate Powder
CAS No.	15804-32-7
Appearance	Brown Powder
Purity	≥99%, ≥99.9%, ≥95%(Other purities are also available)
APS	1-5 µM, 10-53 µM (Can be customized), Ask for other available size range.
Ingredient	Au(CH3COO)3
Density	N/A
Molecular Weight	374.1g/mol
Product Code	NCZ-CAS-169/25

Gold Acetate Description:

Gold Acetate Powder is one of the numerous advanced ceramic materials manufactured by Nanochemazone. Nanochemazone produces too many standard grades when applicable, including Mil Spec (military grade); ACS, Reagent and Technical Grade; Food, Agricultural and Pharmaceutical Grade; Optical Grade, USP and EP/BP (European Pharmacopoeia/British Pharmacopoeia) and follows applicable ASTM testing standards. Typical and custom packaging is available. Additional technical, research and safety (MSDS) information are available. Please request a quote above for more information on lead time and pricing.

Gold Acetate Powder Related Information:

Compound Formula	C6H9AuO6
Molecular Weight	374.1
Appearance	Brown Powder
Melting Point	N/A
Boiling Point	N/A
Density	N/A
Solubility in H2O	N/A
Exact Mass	374.006482
Monoisotopic Mass	374.006482

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Gold Acetate Solution Powder

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Gold Acetate Solution Powder

Product	Gold Acetate Solution Powder
CAS No.	15804-32-7
Appearance	Colorless Pale Yellow Powder
Purity	≥99%, ≥99.9%, ≥95%(Other purities are also available)
APS	1-5 µM, 10-53 µM (Can be customized), Ask for other available size range.
Ingredient	Au(O2CCH3)3
Density	N/A
Molecular Weight	374.1g/mol
Product Code	NCZ-CAS-170/25

Gold Acetate Solution Description:

Gold Acetate Solution Powder is one of the numerous advanced ceramic materials manufactured by Nanochemazone. Nanochemazone produces too many standard grades when applicable, including Mil Spec (military grade); ACS, Reagent and Technical Grade; Food, Agricultural and Pharmaceutical Grade; Optical Grade, USP and EP/BP (European Pharmacopoeia/British Pharmacopoeia) and follows applicable ASTM testing standards. Typical and custom packaging is available. Additional technical, research and safety (MSDS) information are available. Please request a quote above for more information on lead time and pricing.

Gold Acetate Solution Powder Related Information:

Compound Formula	C6H9AuO6
Molecular Weight	374.1
Appearance	Liquid
Melting Point	N/A
Boiling Point	N/A
Density	N/A
Solubility in H2O	N/A
Exact Mass	374.006482
Monoisotopic Mass	374.006482

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Gold Cadmium Selenium Core Shell Nanoparticles

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Gold Cadmium Selenium Core Shell Nanoparticles

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Gold Cadmium Selenium Core Shell Nanoparticles

MF:	Au/CdSe
Chemical Name:	Gold Cadmium Selenium Core Shell Nanoparticles
Purity:	>99.99%
APS:	80-100 nm (Size Customization possible)
Form:	Nanopowder/Nanodispersion
Product Number:	NCZCS110
CAS Number:	7440-57-5

Note: We supply different products of microparticles and Nanoparticles powder in all size range according to client’s requirements. Please enquire for other core-shell particles having different thicknesses, porosities, and sizes. If the item shown is not exactly what you require please let us know by sending us a message

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Gold Cobalt Core Shell Nanoparticles

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Gold Cobalt Core Shell Nanoparticles

MF:	Au/Co
Chemical Name:	Gold Cobalt Core Shell Nanoparticles
Purity:	>99.99%
APS:	80-100 nm (Size Customization possible)
Form:	Nanopowder/Nanodispersion
Product Number:	NCZCS111
CAS Number:	7440-57-5

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Gold Copper Alloy Nanopowder

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Au-Cu Alloy Nanoparticles/Nanopowder (Particle Size Less than ≤ 80 nm, 99.9%) Gold Copper Alloy Nanopowder

Product Formula	Au: Cu
Product Number	NCZ-A-126-19
CAS Number	7440-57-5/7440-50-8
Molecular Weight	260.51 g/moL
APS	≤ 80 nm (can be customized)
Purity	99.9%
Color	Golden Copper
Form	Nanopowder

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Gold Copper Iodide Core Shell Nanoparticles

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Gold Copper Iodide Core Shell Nanoparticles

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Gold Copper Iodide Core Shell Nanoparticles

MF:	Au/CuI
Chemical Name:	Gold Copper Iodide Core Shell Nanoparticles
Purity:	>99.99%
APS:	80-100 nm (Size Customization possible)
Form:	Nanopowder/Nanodispersion
Product Number:	NCZCS112
CAS Number:	7440-57-5

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Gold Foil Sheets

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Gold Foil Sheets (Au foil, thickness 0.025 mm, ≥99.9% trace metals basis)

Gold Foil Sheets

Product: Gold Foil Sheets (Au foil, thickness 0.025 mm, ≥99.9% trace metals basis)

Materials	Gold Foil Sheets
Chemical Formula	Au
Stock No.	NCZ-F-00118
CAS	7440-57-5
Purity	≥99.9%
Thickness	0.025 mm, 0.05 mm, 0.1 mm, 0.25 mm, 0.5 mm, 1 mm etc. (Customization is available on request)
Molecular Weight	196.97
EC Number	231-165-9
PubChem Substance ID	24856107
Resistivity	2.05 μΩ-cm, 0°C
Boiling Point	2808 °C(lit.)
Melting Point	1063 °C(lit.)
Polished	Both Side Polished, one side polished, without Polish etc. (Customizable)
Appearance Quality	Foil/Sheet
Size	25 × 25 mm; 50 × 50 mm, 100 x 100 mm (Customization is available on request)

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Gold Iron Oxide Core Shell Nanoparticles

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Gold Iron Oxide Core Shell Nanoparticles

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Gold Iron Oxide Core Shell Nanoparticles

MF:	Au/Fe2O3
Chemical Name:	Gold Iron Oxide Core Shell Nanoparticles
Purity:	>99.99%
APS:	80-100 nm (Size Customization possible)
Form:	Nanopowder/Nanodispersion
Product Number:	NCZCS113
CAS Number:	7440-57-5

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Gold Nanoparticles

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Gold Nanoparticles

MF:	Au
Chemical Name:	Gold Nanoparticles
Purity:	> 99.99%
APS:	30-40 nm (Size Customization possible)
Form:	Nanopowder/Dispersion
Product Number:	#NCZ2901
CAS Number	7440-57-5

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Monodisperse Gold Nanoparticles Dispersion

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Gold Nanoparticles Dispersion

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MF:	Au
Chemical Name:	Gold Nanoparticles Dispersion
Purity:	>99.99%
APS:	<10nm (Size Customization possible)
Form:	Nano dispersion
Product Number:	NCZD601
CAS Number	7440-57-5

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Gold Nanorods

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MF:	Au
Chemical Name:	Gold Nanorods
Purity:	> 99.99%
Diameter:	100 nm (Customization is possible)
Length:	80 µm (Customization is possible)
Form:	Nanorod
Product Number:	NCZR102
CAS Number	7440-57-5

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Gold Nanowire

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MF:	Au
Chemical Name:	Gold Nanowires
Purity:	> 99.99%
Diameter:	10 nm (Customization is possible)
Length:	up to 200µm (Customization is possible)
Form:	Nanowire
Product Number:	NCZW106
CAS Number	7440-57-5

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Gold Palladium Core Shell Nanoparticles

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Gold Palladium Core-Shell Nanoparticles

MF:	Au/Pd
Chemical Name:	Gold Palladium Core-Shell Nanoparticles
Purity:	>99.99%
APS:	80-100 nm (Size Customization possible)
Form:	Nanopowder/Nanodispersion
Product Number:	NCZCS117
CAS Number:	7440-57-5

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Gold Paste for Screen Printing

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Gold Paste Screen Print Ink

Gold Paste Conductive

Nanochemazone® provides a wide range of working electrodes Screen Printing Paste and Inks for all forms of electrochemical analysis including cyclic voltammetry, chrono-amperometry, and potentiometric methods. The Gold paste is highly thixotropic which gives it a very good definition on printing.

Gold Paste Benefits:

Low coefficient of variation (CV%).
This product has no significant hazardous materials.
It gives excellent electrochemical performance with good reversibility when using cyclic voltammetry.
high adhesion to ceramic substrates.
Stable electrical properties on repeat firing.
Suitable for fine line printing.

Special Features of Gold Paste:

It is a screen printable gold paste designed for printing high definition electrodes in sensor applications. The paste is designed for firing at high temperatures on ceramic substrates.

MF:	Au
Chemical Name:	Gold Ink, Gold Paste
Purity:	>99.99%
Molecular Weight	196.97
Product Number:	NCZ-SPI-106
Form:	Ink/Paste
CAS Number:	7440-57-5
Storage	15ºC to 25ºC
Substrate	Suitable for Polyester, PVC, Polycarbonate or ceramic, zirconia
Solids Content at 700°C	80-82 % (Customizable)
Viscosity Haake RS1 C20/2º TiL at 230 sec^-1 at 25°C.	56.00 – 62.00 Pa s (Customizable)

Pack Size: 10 mL, 25 mL, 50 mL and 100 mL Bulk Pack Size: 250 mL, 500 mL and 1000 mL

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Gold Platinum Core Shell Nanoparticles

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Gold Platinum Core-Shell Nanoparticles

MF:	Au/Pt
Chemical Name:	Gold Platinum Core-Shell Nanoparticles
Purity:	>99.99%
APS:	80-100 nm (Size Customization possible)
Form:	Nanopowder/Nanodispersion
Product Number:	NCZCS114
CAS Number:	7440-57-5

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Gold Powder

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Gold Powder (Au, Purity: 99%, APS: 40-50 µm) Gold Powder Product: Gold Powder (Au, Purity: 99%, APS: 40-50 µm)

Product	Gold Powder
Product Number	NCZM136-18
CAS	7440-57-5
APS	40-50 µm (Size customization is available)
Purity	99 %
Molecular Weight	196.97 g/ mol
Form	Powder
Colour	Yellow Powder
Density	19.30 g/ cm³
Melting Point	1064.43 ºC
Boiling Point	2970 ºC

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Gold Silicon Oxide Core-Shell Nanoparticles

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Gold Silica Core-Shell Nanoparticles

MF:	Au/SiO2
Chemical Name:	Gold Silicon Oxide Core-Shell Nanoparticles
Purity:	>99.99%
APS:	80-100 nm (Size Customization possible)
Form:	Nanopowder/Nanodispersion
Product Number:	NCZCS115
CAS Number:	7440-57-5 / 7631-86-9

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Gold Silver Core Shell Nanoparticles

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Gold Silver Core-Shell Nanoparticles

MF:	Au/Ag
Chemical Name:	Gold Silver Core-Shell Nanoparticles
Purity:	>99.99%
APS:	80-100 nm (Size Customization possible)
Form:	Nanopowder/Nanodispersion
Product Number:	NCZCS116
CAS Number:	7440-57-5

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Gold Tin Alloy Nanopowder

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Au-Sn Alloy Nanoparticles/Nanopowder (Particle Size Less than ≤ 80 nm, 99.9%) Gold Tin Alloy Nanopowder

Product Formula	Au: Sn
Product Number	NCZ-A-127-19
CAS Number	7440-57-5/7440-31-5
Molecular Weight	315.67 g/moL
APS	≤ 80 nm (can be customized)
Purity	99.9%
Color	Gray
Form	Nanopowder

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GRAPHDIYNE FILM

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Product Name: GRAPHDIYNE FILM

Product	Graphdiyne film
Thickness	50-200 nm ± 20 nm
Size	2 cm×2 cm, 2 cm× 10 cm
Base Template	Cu
CAS No.	154702-15-5
Product Code	NCZ-GD-101

Thickness: a. 300-500 nm （Size: 1×1cm, 1.5×1.5 cm） b. 50-200 nm ± 20 nm (Size:2×2, 2×4, 2×6, 2×8, 2×10 cm) APPLICATION FIELDS Catalysis, supported metal particles for photocatalysis, electrode materials, electrochemistry. RELATED INFORMATION Storage Conditions: Sealed, avoid light, keep dry at room temperature.

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Graphdiyne Monomer HEB-TMS

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Product Name: Graphdiyne Monomer HEB-TMS

Product	hexaethynylbenzene（HEB-TMS)
Color	pale-yellow powder
CAS No.	154702-15-5
Product Code	NCZ-GD-103

APPLICATION FIELDS

Graphidyne (GDY) is a new type of two-dimensional carbon allotrope. It is a new all-carbon nanostructured material after fullerenes, carbon nanotubes, and graphene. In 2010, Li Yuliang, Academician Group For the first time, a high-quality graphene film was successfully synthesized on the surface of Cu foil by the cross-coupling reaction of hexamethylene benzene precursor. Graphene has a rich carbon chemical bond, a large conjugated system, wide interplanar spacing, and excellent chemical stability. It is known as the most stable allotrope of synthetic diacetylene. Its unique sp-sp2 carbon atoms, uniform pores, and high π-conjugated structure have shown broad application prospects in gas separation, catalysis, water treatment, humidity sensors, and energy.

Storage Conditions: Sealed, avoid light, keep dry at room temperature.

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Graphdiyne Nanowalls

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Product Name: Graphdiyne Nanowalls

Product	Graphdiyne Nanowalls
Thickness	300-500 nm
Size	1.5cm1.5cm/1cm1cm
Template	Cu
CAS No.	154702-15-5
Product Code	NCZ-GD-102

APPLICATION FIELDS Catalysis, supported metal particles for photocatalysis, electrode materials, electrochemistry. RELATED INFORMATION Storage Conditions: Sealed, avoid light, keep dry at room temperature.

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Graphdiyne Oxide Powder

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Product Name: Graphdiyne Oxide Powder

Product	Graphdiyne Oxide Powder
Pack Size	10 mg, 20 mg, 50 mg, 100 mg & 1 gram
CAS No.	154702-15-5
Product Code	NCZ-GD-105

APPLICATION FIELDS

Graphdiyne (GDY) is a new type of two-dimensional carbon allotrope. It is a new all-carbon nanostructured material after fullerenes, carbon nanotubes and graphene. In 2010, Li Yuliang, Academician Group For the first time, a high-quality graphene film was successfully synthesized on the surface of Cu foil by the cross-coupling reaction of hexamethylene benzene precursor. Graphene has a rich carbon chemical bond, a large conjugated system, wide interplanar spacing, and excellent chemical stability. It is known as the most stable allotrope of synthetic diacetylene. Its unique sp-sp2 carbon atoms, uniform pores and high π-conjugated structure have shown broad application prospects in gas separation, catalysis, water treatment, humidity sensors and energy.

The synthesis of Graphdiyne was reported as a 1 mm film on a copper surface. Graphdiyne was predicted to exhibit a nanoweb-like structure, characterized by triangular and regularly distributed pores, thus forming a nanoporous membrane. Due to the effective size of its pores, which almost matches the van der Waals radius of the helium atom, graphdiyne could behave as an ideal two-dimensional membrane for helium chemical and isotopic separation. The application of a graphdiyne based membrane as an efficient two-dimensional sieve for water filtration and purification technologies has been proposed.

RELATED INFORMATION Storage Conditions: Sealed, avoid light, keep dry at room temperature.

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Graphdiyne Powder

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Product Name: Graphdiyne Powder

Product	Graphdiyne Powder
Pack Size	10 mg, 20 mg, 50 mg, 100 mg & 1 gram
CAS No.	154702-15-5
Product Code	NCZ-GD-104

APPLICATION FIELDS

RELATED INFORMATION Storage Conditions: Sealed, avoid light, keep dry at room temperature.

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Graphene and Carbon Nanotubes Dispersion Mixture

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Graphene & Carbon Nanotubes Water Paste

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MF	C
Chemical Name	Graphene and Carbon Nanotubes Dispersion Mixture
Purity	≥99.5%
Diameter	Graphene 5-7 μm, CNT Outside Diameter: 50-80 nm, Inside Diameter: 5-15 nm (Customization possible)
Length	10-20 μm (Customization possible)
Number of Layers	<30 (Customization possible)
Color	Black
Form	Dispersion/Paste/Solution
Product Number	NCZC1010
CAS Number	7782-42-5

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Graphene Dispersion

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MF	C
Chemical Name	Graphene Dispersion
Purity	≥99.9%
Diameter	4-6 μm
Thickness	0.55- 3.74 nm
Number of Layers	1-10 (Customization possible)
Color	Black
Specific Area	500-700 m2/g
Form	Dispersion/Solution
Product Number	#NCZC1003
CAS Number	7782-42-5
Content of Graphene in Water	1.0-1.5 wt% (Customization is possible)
Content of Dispersants in Water	0.2-0.75 wt%

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Graphene Dispersion Organic Solvent

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Graphene Dispersion Organic Solvent Graphene Dispersion Organic Solvent (C, Purity: >98%)

Product	Graphene Dispersion Organic Solvent
Product Number	NCZ-D-107N
CAS	7782-42-5
Purity	> 98 %
Molecular Formula	C
Molecular Weight	12.01 g/mol
Form	Liquid
Color	Brown/black
Density	~ 2.1 g/cm³ at 20 °C
Concentration	1 mg/ml (Customization is possible)

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Graphene Nanoplatelets

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MF	C
Chemical Name	Graphene Nanoplatelets
Purity	≥99.5%
Diameter	5-10 µm (ask for Customization)
Thickness	1-20 nm (ask for Customization)
Number of Layers	<30 (Customization possible)
Color	Black
Form	Dispersion/Paste/Solution/Powder
Product Number	NCZC1012
CAS Number	7782-42-5

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Graphene Nanoplatelets

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Graphene Nanoplatelets

MF:	C
Chemical Name:	Graphene Nanoplatelets
Purity:	> 99.99%
APS:	5-10 µm, 20-50 layers (Size Customization possible)
Form:	Nanopowder
Product Number:	#NCZ3001
CAS Number	99685-96-8

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Graphene Nanoplatelets & Carbon Nanotubes Mix Paste

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Graphene Nanoplatelets & Carbon Nanotubes Mix Paste

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MF:	C
Chemical Name:	Graphene and CNT Paste
Purity:	≥99.5%
Diameter	GNP 5-7 μm, CNT Outside Diameter: 50-80 nm, Inside Diameter: 5-15 nm (Customization possible)
Length	10-20 μm (Customization possible)
Number of Layers:	<30 (Customization possible)
Color	Black
Form:	Dispersion/Paste/Solution
Product Number:	#NCZC1011
CAS Number	7782-42-5
Solvent	NMP, DMF, DMSO, Acetonitrile, etc.

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Graphene Nanoplatelets & Carbon Nanotubes Water/NMP Dispersion

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Graphene and CNT Dispersion

MF	C
Chemical Name	Graphene and CNT Dispersion
Purity	≥99.5%
Diameter	GNP 5-7 μm, CNT Outside Diameter: 50-80 nm, Inside Diameter: 5-15 nm, customization available.
Length	10-20 μm
Number of Layers	< 10 to 30 (Customization possible)
Color	Black
Form	Dispersion/Paste/Solution
Product Number	NCZC1016
CAS Number	7782-42-5

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Graphene Nanoplatelets Paste and Dispersion

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Graphene Nanoplatelets Dispersion

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M	C
Chemical Name	Graphene Nanoplatelets Paste and Dispersion
Purity	≥99.5%
Diameter	1-10 µm (Customization possible)
Thickness	2-20 nm (Customization possible)
Number of Layers	<30 (Customization possible)
Color	Black
Form	Dispersion/Paste/Solution
Product Number	NCZC1009
CAS Number	7782-42-5

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Graphene Nanoplatelets Industrial Grade

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MF	C
Chemical Name	Graphene Nanoplatelets
Purity	≥99.5%
Diameter	5-10 µm
Thickness	4-20 nm
Number of Layers	<30 (Customization possible)
Color	Black
Form	Dispersion/Paste/Solution/Powder
Product Number	NCZC1012
CAS Number	7782-42-5

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Graphene Nanoplatelets Paste

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MF	C
Chemical Name	Graphene Nanoplatelets Paste
Purity	≥ 99.5%
Diameter	5-10 µm
Thickness	2-20 nm
Number of Layers	<30 (Customization possible)
Color	Black
Form	Dispersion/Paste/Solution
Product Number	NCZC1008
CAS Number	7782-42-5

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Graphene Nanoplatelets Powder

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Graphene Nanoplatelets Powder (> 99.5 wt%, D 5-10 um, < 20 layers)

Graphene Nanoplatelets Powder

MF	C
Chemical Name	Graphene Nanoplatelets
Purity	≥99.5%
Diameter	5-10 µm
Thickness	4-20 nm
Number of Layers	<30 (Customization possible)
Color	Black
Form	Dispersion/Paste/Solution/Powder
Product Number	NCZC1007
CAS Number	7782-42-5

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Graphene on Lacey Carbon 300 Mesh Copper TEM Grids

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Graphene on Lacey Carbon 300 Mesh Copper TEM Grids

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Graphene On Lacey Carbon 300 Mesh Copper TEM Grids

Product Name	Graphene On Lacey Carbon 300 Mesh Copper TEM Grids
Stock No.	NCZ-GSW-0015
Purity	> 99.9%
Graphene Film
FET Electron Mobility on Al₂O₃	2000 cm²/Vs
Hall Electron Mobility on SiO₂/Si	4000 cm²/Vs
Sheet Resistance	450±40 Ω/sq (1cm x1cm)

PRODUCT DETAIL CAS No.: 7782-42-5 Graphene TEM Support Films are supported by a lacey carbon film on a 300 mesh copper TEM grid. Characteristics

Four thicknesses of CVD graphene: Available in either 1, 2, 3-5 or 6-8 layers

TEM Substrate: Lacey carbon support film on 300 mesh copper TEM grid

Graphene coverage of the TEM grid is better than 75%

Appearance The graphene film appears as a near-transparent to light-grey film on the surface of the Lacey Carbon mesh on a red-brown colored copper TEM grid.

Type	Thickness of the Graphene	Transparency	TEM Grid/AFM Substrate	Support Film
1 Layer	~0.35 nm	~96.4%	300 Mesh Copper Grid	N/A
2 Layers	~0.7 nm	~92.7%	300 Mesh Copper Grid	N/A
3-5 Layers	1.0-1.7 nm	~85.8-90.4%	300 Mesh Copper Grid	N/A
6-8 Layers	2.1-2.8 nm	~78.5-83.2%	300 Mesh Copper Grid	N/A

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uy Graphene on Silicon Nitride TEM Grids

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Graphene on Silicon Nitride TEM Grids

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Graphene on Silicon Nitride TEM Grids

Product Name	Graphene on Silicon Nitride TEM Grids
Stock No.	NCZ-GSW-0012
Purity	> 99.9%
Graphene Film
FET Electron Mobility on Al₂O₃	2000 cm²/Vs
Hall Electron Mobility on SiO²/Si	4000 cm²/Vs
Sheet Resistance	450±40 Ω/sq (1cm x1cm)

PRODUCT DETAIL Characteristics

Four thicknesses of CVD graphene: Available in either 1, 2, 3-5 or 6-8 layers

TEM Substrate: 200 µm thick 3.0mm hexagonal silicon substrate with a 0.5x0.5mm aperture and 200nm thick silicon nitride membrane with approximately 6,400 2.5µm holes

Graphene coverage of the TEM grid is > 75%

Appearance Solid hexagonal disk with a greenish hue. The graphene film appears as a near-transparent to light-grey film on the surface of the microporous silicon Nitride membrane.

Type	Thickness of the Graphene	Transparency	TEM Grid/AFM Substrate	Support Film
1 Layer	~ 0.35 nm	~ 96.4%	2.5 μm Hole Silicon Nitride	Silicon Nitride
2 Layers	~0.7 nm	~92.7%	2.5 μm Hole Silicon Nitride	Silicon Nitride
3-5 Layers	1.0-1.7 nm	~85.8-90.4%	2.5 μm Hole Silicon Nitride	Silicon Nitride
6-8 Layers	2.1-2.8 nm	~78.5-83.2%	2.5 μm Hole Silicon Nitride	Silicon Nitride

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Graphene on Ultra-Flat Thermal SiO2 Substrate

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Graphene on SiO2 Substrate

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Graphene on Ultra-Flat Thermal SiO₂ Substrate

Product Name	Graphene on Ultra-Flat Thermal SiO2 Substrate
Stock No.	NCZ-GSW-0011
Purity	> 99.9%
Graphene Film
FET Electron Mobility on Al₂O₃	2000 cm²/Vs
Hall Electron Mobility on SiO²/Si	4000 cm²/Vs
Sheet Resistance	450±40 Ω/sq (1cm x1cm)

PRODUCT DETAIL Characteristics

Four thicknesses of CVD graphene: Available in either 1, 2, 3-5 or 6-8 layers

The Ultra-flat Thermal SiO2 Substrate consists of a 200 nm thermally grown SiO2 film on an ultra-flat silicon wafer with a normal thickness of 675 µm. The size is 5mm x 5mm.
Graphene coverage of the TEM grid is 75-95 %

Type	Thickness of the Graphene	Transparency	Support Film
1 Layer	~0.35nm	~96.4%	Ultra-flat Silicon
2 Layers	~0.7nm	~92.7%	Ultra-flat Silicon
3-5 Layers	1.0-1.7nm	~85.8-90.4%	Ultra-flat Silicon
6-8 Layers	2.1-2.8nm	~78.5-83.2%	Ultra-flat Silicon

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