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Tungsten Powder

Product Tungsten Powder
CAS No. 7440-33-7
Appearance Matellic Gray to 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 W
Density 19.3g/cm3
Molecular Weight 183.84g/mol
Product Codes NCZ-DCY-275/25

Tungsten Description:

Tungsten 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

Tungsten 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.

Tungsten Powder

Tungsten powders are used as consumables in industries such as 3D printing of tungsten and tungsten alloys, porous materials, and highly dense powder coating. With the rapid development of 3D printing technology, porous materials, highly dense powder coating, and injection molding, the demand for high-quality spherical tungsten powders is increasing.

Tungsten powders are used as consumables in industries such as 3D printing of tungsten and tungsten alloys, porous materials, and highly dense powder coating. With the rapid development of 3D printing technology, porous materials, highly dense powder coating, and injection molding, the demand for high-quality spherical tungsten powders is increasing. High-quality spherical tungsten powder is not only good flowability, good sphericity, high apparent density and vibrational density, and low oxygen content.

Product Properties

Appearance: Grey powder

Size: 15-40um

Note: Other 3D printing powders are available upon any custom requirements

No Name Chemical Composition(wt%)
1 18Ni300 Ni17-19, Mo4.5-5.2, Co8.5-9.5, Ti0.6-0.8, Al0.05-0.15,Fe(Bal.)
2 Hastelloy Alloy Fe17-20, Cr20.5-23, Mo8-10, W0.2-1, Co0.5-2.5, C0.05-0.15, Ni (Bal.)
3 AlSi10Mg Si9-11,Mg0.2-0.45,Al(Bal.)
4 CoCrW Cr26.5-29, W7-9, Si1.2-1.9, Co (Bal.)
5 Co28Cr6Mo Cr27-29, Mo5-7, Co (Bal.)
6 Spherical Ti Powder Ti≥99.9
7 TC4 Al5.5-6.8, V3.5-4.5, Ti  (Bal.)
8 TA15 Al5.5-7.1, V0.8-2.5, Mo0.8-2,Zr1.5-2.5, Al (Bal.)
9 316L Cr16.00-18.00, Ni10.00-14.00, Mo2.00-3.00, Fe (Bal.)
10 S136 Cr12.0-14.0, Si0.8-1.0, V0.15-0.4, C0.2-0.45, Fe (Bal.)
11 In625 Cr20-23Mo8-10, Nb 3.15-4.15, Co≤1, Fe≤1, Ni (bal.)
12 In718 Cr17-21, Mo2.8-3.3, Nb 4.75-5.5, Co≤1, Ni50-51, Fe (Bal.)
13 Spherica WC C3.7-4.2, W (Bal.)
14 Spherical Cr Powder Cr≥99.9
15 Spherica Mo Powder Mo≥99.9
16 Spherica Ta Powder Ta≥99.9
17 Spherica W Powder W≥99.9

 Application

3D Printing;

Injection molding(MIM);

Powder metallurgy(PM);

Spraying coating(SP) etc..

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Note: For pricing & ordering information, please get in touch with us at sales@nanochemazone.com
Please contact us for quotes on Larger Quantities and customization. E-mail: contact@nanochemazone.com

Customization:
If you are planning to order large quantities for your industrial and academic needs, please note that customization of parameters (such as size, length, purity, functionalities, etc.) is available upon request.

NOTE:
Images, pictures, colors, particle sizes, purity, packing, descriptions, and specifications for the real and actual goods may differ. These are only used on the website for the purposes of reference, advertising, and portrayal. Please contact us via email at sales@nanochemazone.com or by phone at (+1 780 612 4177) if you have any questions.

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310 Powder
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310 Powder

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310 Powder

Product 310 Powder
CAS No. 12060-00-3
Appearance Silvery 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 Fe-25Cr-20Ni
Density 7.9g/cm3
Molecular Weight 150-160 g/mol
Product Codes NCZ-DCY-170/25

310 Description:

310 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

310 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. 310 Powder 310 powder is an austenitic stainless steel powder containing high levels of chromium, nickel and nitrogen for enhanced mechanical properties and corrosion resistance. It offers an excellent combination of strength, hardness, toughness and wear resistance. Overview of 310 Powder 310 powder is an austenitic stainless steel powder containing high levels of chromium, nickel and nitrogen for enhanced mechanical properties and corrosion resistance. It offers an excellent combination of strength, hardness, toughness and wear resistance. 310 Powder Properties and Characteristics
Properties Details
Composition Fe-25Cr-20Ni-0.25N alloy
Density 8.1 g/cc
Particle shape Irregular, angular
Size range 10-150 microns
Apparent density Up to 50% of true density
Flowability Moderate
Strength Very high for a 300 series powder
Wear resistance Excellent due to work hardening
310 powder is widely used in applications requiring hardness, wear resistance, and corrosion resistance like valve parts, shafts, bearing cages, fasteners, surgical instruments etc. 310 Powder Composition
Element Weight %
Iron (Fe) Balance
Chromium (Cr) 24-26%
Nickel (Ni) 19-22%
Nitrogen (N) 0.2-0.4%
Carbon (C) 0.25% max
Silicon (Si) 1.5% max
Manganese (Mn) 2% max
Sulfur (S) 0.03% max
Phosphorus (P) 0.045% max
Iron provides the ferritic matrix and ductility Chromium and nickel enhance corrosion resistance Nitrogen provides solid solution strengthening Carbon, silicon, manganese controlled as tramp elements The optimized composition provides an excellent combination of strength, hardness, corrosion resistance, and cost. 310 Powder Physical Properties
Property Values
Density 8.1 g/cc
Melting point 1370-1400°C
Electrical resistivity 0.8 μΩ-m
Thermal conductivity 12 W/mK
Thermal expansion 11 x 10^-6 /K
Maximum service temperature 1150°C
High density compared to ferritic stainless steels Maintains excellent strength at elevated temperatures Resistivity higher than pure iron or carbon steels Lower thermal conductivity than carbon steel Can withstand continuous service up to 1150°C The physical properties make 310 suitable for high temperature applications requiring hardness, strength and corrosion resistance. 310 Powder Mechanical Properties
Property Values
Tensile strength 760-900 MPa
Yield strength 450-550 MPa
Elongation 35-40%
Hardness 32-38 HRC
Impact strength 50-100 J
Modulus of elasticity 190-210 GPa
Very high strength for 300 series stainless steel Excellent hardness and wear resistance High toughness and impact strength Strength can be further increased through cold working Cold working also significantly enhances hardness The properties provide an excellent combination of strength, hardness and toughness required in many wear resistant applications. 310 Powder Applications
Industry Example Uses
Petrochemical Valves, pumps, shafts
Food processing Extruder screws, blades
Automotive Gears, shafts, fasteners
Manufacturing Press tooling, bearing cages
Medical Surgical instruments, implants
Some specific product uses: High strength fasteners, bolts, nuts Pump and valve components like seals, shafts Food processing extruder screws and blades High hardness press tooling and molds Mixing equipment, impellers requiring wear resistance Its excellent combination of properties make 310 widely used for specialized applications across industries. 310 Powder Standards
Standard Description
ASTM A276 Standard specification for stainless steel bars and shapes
ASTM A314 Standard for stainless steel bent pipe and tubing
ASME SA-479 Specification for stainless steel tubing
AMS 5517 Annealed corrosion resistant steel bar, wire, forgings
AMS 5903 Precipitation hardening stainless steel bar, wire, forgings
These standards define: Chemical composition limits of 310 alloy Permissible impurity levels like S, P Required mechanical properties Approved production methods Compliance testing protocols Proper packaging, labeling and documentation Meeting certification requirements ensures suitability of the powder. 310 Powder Particle Size Distribution
Particle Size Characteristics
10-45 microns Ultrafine grade for high density and surface finish
45-150 microns Coarse grade provides good flowability
Finer particles allow greater densification during sintering Coarser powder flows better and fills die cavities uniformly Size range is tailored based on final part properties needed Both gas and water atomized powders are available Controlling particle size distribution allows optimizing processing behavior and final part performance. 310 Powder Apparent Density
Apparent Density Details
Up to 50% of true density For irregular powder morphology
4.5-5.5 g/cc typical Improves with greater packing density
Higher apparent density improves powder flow and compressibility Irregular morphology limits maximum packing density Values up to 60% are possible with spherical powders High apparent density improves press filling efficiency Higher apparent density leads to better manufacturing productivity and part quality. 310 Powder Production
Method Details
Gas atomization High pressure inert gas breaks 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 homogenization
Sieving Classifies powder into different particle size ranges
Gas atomization provides clean, spherical powder morphology Water atomization is a lower cost process with irregular particles Vacuum melting and remelting minimizes gaseous impurities Post-processing allows customization of particle sizes Automated production and stringent quality control result in consistent powder suitable for critical applications. 310 Powder Handling and Storage
Recommendation Reason
Use PPE and ventilation Avoid exposure to fine metallic particles
Ensure proper grounding Prevent static discharge while handling
Avoid ignition sources Powder can combust in oxygen atmosphere
Use non-sparking tools Prevent possibility of ignition
Follow safety protocols Reduce risk of burns, inhalation, ingestion
Store in stable containers Prevent contamination or oxidation
310 Powder Pros and Cons Advantages of 310 Powder Excellent strength and hardness for stainless steel powder High temperature strength and corrosion resistance Good ductility, toughness and weldability Excellent wear and abrasion resistance Readily work hardens significantly More cost-effective than high nickel or exotic alloys Disadvantages of 310 Powder Lower ductility than austenitic grades in annealed state Lower pitting corrosion resistance than 316 grade Requires care during welding to avoid sensitization Limited cold heading and forming capability Susceptible to sigma phase embrittlement at high temperatures Surface discoloration over time in some environments Comparison With 316L Powder
Parameter 310 316L
Density 8.1 g/cc 8.0 g/cc
Strength 760-900 MPa 485-550 MPa
Hardness 32-38 HRC 79-95 HRB
Corrosion resistance Very good Excellent
Cost Low High
Uses Wear parts, tools Chemical plants, marine
310 has far higher strength and hardness 316L provides better overall corrosion resistance 310 is more cost-effective than 316L 310 suited for applications needing hardness and wear resistance 316L preferred where corrosion is the primary concern 310 Powder FAQs Q: What are the main applications of 310 stainless steel powder? A: Main applications include high-strength fasteners, pump and valve components, extruder screws, press tooling, bearing cages, shafts, and surgical instruments requiring hardness, strength and wear resistance. Q: What is nitrogen’s role in 310 stainless steel? A: Nitrogen provides substantial solid solution strengthening which significantly increases the strength and hardness of 310 stainless steel. Q: What precautions are needed when working with 310 powder? A: Recommended precautions include ventilation, inert atmosphere, grounding, avoiding ignition sources, protective gear, using non-sparking tools, and safe storage in stable containers. Q: How does 310 stainless steel differ from 304 and 316 grades? A: 310 has much higher strength and hardness than 304 or 316 due to its high nitrogen content. It offers better wear resistance but lower corrosion resistance than 316.
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A100 Steel Alloy Powder
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A100 Steel Alloy Powder

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A100 Steel Alloy Powder

Product A100 Steel Alloy Powder
CAS No. 64742-9506
Appearance Colorless 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 Fe-0.5C-1.5Ni-0.5Cr
Density 0.87g/cm3
Molecular Weight N/A
Product Codes NCZ-DCY-176/25

A100 Steel Alloy Description:

A100 Steel 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

A100 Steel 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. A100 steel alloy powder A100 steel alloy powder is a specialized form of steel that consists of a precise blend of iron and other alloying elements. It is manufactured by atomization, a process that involves rapidly solidifying molten metal into fine powder particles. This fine powder exhibits excellent flowability and can be easily consolidated into various shapes using powder metallurgy techniques. Overview of A100 Steel Alloy Powder A100 stainless steel contains high levels of nickel and manganese along with chromium, nitrogen and carbon to achieve outstanding low temperature toughness and ductility. It retains excellent impact strength and resistance to cryogenic embrittlement down to the temperature of liquid helium. Key characteristics of A100 powder include: Excellent low temperature toughness and ductility High impact strength at cryogenic temperatures Good strength and hardness at room temperature Very good weldability and fabricability Resistant to cryogenic embrittlement Available in various particle size distributions A100 powder is designed for applications requiring thermal stability and toughness at extremely low temperatures such as liquid natural gas storage and transportation. This article provides a detailed overview of this alloy powder. The typical composition of A100 powder is:
Element Weight %
Nickel (Ni) 9-11%
Manganese (Mn) 12-14%
Chromium (Cr) 14-16%
Nitrogen (N) 0.15-0.30%
Carbon (C) 0.08% max
Silicon (Si) 1% max
Iron (Fe) Balance
The key alloying elements like nickel, manganese, chromium along with nitrogen enable exceptional cryogenic temperature toughness and ductility in A100 steel. Properties of A100 Powder
Property Value
Density 7.9-8.1 g/cm3
Melting Point 1400-1450°C
Thermal Conductivity 12 W/mK
Electrical Resistivity 0.80 μΩ.cm
Young’s Modulus 190-210 GPa
Poisson’s Ratio 0.29-0.30
Tensile Strength 620 MPa
Yield Strength 275 MPa
Elongation 35-40%
Impact Strength 50-120 J at -196°C
A100 maintains excellent ductility and impact strength even at the temperature of liquid helium making it suitable for the most demanding cryogenic applications. A100 powder can be produced via: Gas Atomization – High pressure inert gas used to atomize the molten alloy resulting in fine spherical powder ideal for AM. Water Atomization – High velocity water jet breaks up the molten stream into irregular powder particles. Lower cost but higher oxygen pickup. Mechanical Alloying – Ball milling of blended elemental powders followed by sintering and secondary atomization. Gas atomization allows excellent control over particle size distribution, shape, oxygen pickup and micro cleanliness. Applications of A100 Powder Additive Manufacturing – Used in laser powder bed fusion and binder jetting for cryogenic parts like valve bodies, pump components, storage tanks etc. Metal Injection Molding – To manufacture small, complex cryogenic parts needing high ductility and impact strength. Thermal Spray Coatings – Wire arc spray deposition to produce coatings providing cryogenic resistance. Cryogenic Vessels – Liners, fittings, fasteners, forged and cast parts for storage, transportation of liquefied natural gas. Cryocoolers – Powder forged compressor parts, regenerator housings requiring high cryogenic toughness. Specifications of A100 Powder A100 powder is available under various size ranges, shapes and grades: Particle Size: From 10-45 μm for AM methods, up to 150 μm for thermal spray processes. Morphology: Spherical, irregular and blended shapes. Smooth spherical powder provides optimal flow and packing density. Purity: From commercial to high purity grades based on application requirements. Oxygen Content: Levels maintained below 2000 ppm for most applications. Flow Rate: Powder customized for flow rates above 25 s/50 g. Storage and Handling of A100 Powder A100 powder requires controlled storage and handling: Store in sealed containers under inert gas to prevent oxidation Avoid accumulation of fine powder to minimize dust explosion risks Use proper grounding, ventilation, PPE when handling powder Prevent contact with moisture, acids, strong oxidizers Follow recommended safety practices from supplier SDS Inert gas glove box techniques are preferred when handling reactive alloy powders like A100. Inspection and Testing of A100 Powder Key quality control tests performed on A100 powder: Chemical analysis using OES or XRF to ensure composition is within specified limits Particle size distribution as per ASTM B822 standard Morphology analysis through SEM imaging Powder flow rate measured as per ASTM B213 standard Density determination by helium pycnometry Impurity testing by ICP-MS Microstructure characterization by X-ray diffraction Thorough testing ensures the powder meets the required chemical, physical and microstructural characteristics for cryogenic applications. Comparison Between A100 and 304L Stainless Steel Powders A100 and 304L stainless steel powders compared:
Parameter A100 304L
Type Austenitic Austenitic
Ni content 9-11% 8-12%
Low temperature toughness Excellent Poor
Corrosion resistance Moderate Excellent
Cost Higher Lower
Weldability Very good Excellent
Applications Cryogenic parts Automotive, appliances
A100 offers exceptional low temperature toughness whereas 304L provides better overall corrosion resistance at lower cost. A100 Powder FAQs Q: How is A100 steel alloy powder produced? A: A100 powder is commercially produced using gas atomization, water atomization and mechanical alloying followed by sintering. Gas atomization provides the best control of characteristics. Q: What are the main applications of A100 powder? A: The major applications include additive manufacturing, thermal spray coatings, metal injection molding, and powder metallurgy of cryogenic parts needing high ductility and impact strength at extremely low temperatures. Q: What is the typical A100 powder size used for binder jetting AM? A: For binder jetting process, the common A100 powder size range is 20-45 microns with spherical morphology to enable good powder packing and binder infiltration. Q: Does A100 powder require any special handling precautions? A: Yes, it is recommended to handle A100 powder carefully under controlled humidity and inert atmosphere using proper grounding, ventilation and PPE. Q: Where can I purchase A100 powder suitable for cryogenic storage vessels? A: For cryogenic applications needing high toughness, A100 powder can be purchased from leading manufacturers.
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AerMet100 Stainless Steel Powder
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AerMet100 Stainless Steel Powder

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AerMet100 Stainless Steel Powder

Product AerMet 100 Stainless Steel Powder
CAS No. 12060-00-3
Appearance Gray or Metallic 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 Fe-13Cr-3Ni-1Mo-0.25C
Density 8.2g/cm3
Molecular Weight 155-165 g/mol
Product Codes NCZ-DCY-177/25

AerMet100 Stainless Steel Description:

AerMet100 Stainless Steel 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

AerMet100 Stainless 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. AerMet100 Stainless Steel Powder AerMet100 stainless steel powder is an advanced high strength and corrosion resistant alloy powder designed for additive manufacturing applications. With its unique composition and properties, AerMet100 enables production of high performance parts using 3D printing processes like laser powder bed fusion and binder jetting. This article provides a comprehensive overview of AerMet100 stainless steel powder covering its composition, properties, applications, specifications, pricing, handling, inspection methods and other technical details. AerMet100 stainless steel powder is a high-performance alloy powder designed for additive manufacturing applications requiring high strength and fatigue resistance. Some key features of this material include: High strength and hardness – AerMet100 has excellent strength with tensile strength over 200 ksi and hardness ranging from 30-36 HRC. Good ductility – Despite the high strength, AerMet100 still retains decent ductility and impact resistance. Elongation values are over 10%. Excellent fatigue resistance – The fatigue limit of AerMet100 is very high at around 50% of tensile strength. This allows durable components exposed to cyclic stresses. Resistance to creep – AerMet100 resists deformation under load at high temperatures up to 700°C making it suitable for elevated temperature service. Corrosion resistance – The stainless steel composition provides corrosion and oxidation resistance for use in harsh environments. Weldability – The low carbon content allows for good weldability using standard fusion welding methods. Cost-effectiveness – AerMet100 is more affordable than other exotic alloys with similar properties. This exceptional balance of properties makes AerMet100 suitable for demanding applications in aerospace, oil & gas, automotive, and industrial sectors. Parts made from AerMet100 powder demonstrate high strength-to-weight ratio, durability, and reliability under operating loads. AerMet100 Stainless Steel Powder Composition AerMet100 has a martensitic stainless steel composition with additions of cobalt, nickel, and molybdenum for strength and hardness. The nominal composition is given below:
Element Weight %
Iron (Fe) Balance
Chromium (Cr) 15.0 – 17.0
Nickel (Ni) 7.0 – 10.0
Cobalt (Co) 8.0 – 10.0
Molybdenum (Mo) 4.0 – 5.0
Manganese (Mn) < 1.0
Silicon (Si) < 1.0
Carbon (C) < 0.03
The key alloying elements and their effects are: Chromium – Provides corrosion and oxidation resistance Nickel – Increases toughness and ductility Cobalt – Solid solution strengthener, increases strength Molybdenum – Solid solution strengthener, increases strength and creep resistance Manganese & Silicon – Deoxidizers to improve powder manufacturability Carbon – Kept low for better weldability The combination of these elements gives AerMet100 stainless steel its unique set of properties. AerMet100 Stainless Steel Powder Properties AerMet100 exhibits the following physical and mechanical properties in as-built AM and heat treated conditions:
Property As-Built Heat Treated
Density 7.9 g/cc 7.9 g/cc
Porosity < 1% < 1%
Surface Roughness (Ra) 15-25 μm 15-25 μm
Hardness 30-35 HRC 34-38 HRC
Tensile Strength 170-190 ksi 190-220 ksi
Yield Strength (0.2% Offset) 160-180 ksi 180-210 ksi
Elongation 8-13% 10-15%
Reduction of Area 15-25% 15-25%
Modulus of Elasticity 27-30 Msi 29-32 Msi
CTE (70-400°C) 11-12 μm/m°C 11-12 μm/m°C
Conductivity 25-30% IACS 25-30% IACS
The properties make AerMet100 suitable for high-strength structural components, aerospace fasteners, downhole tools, valves and pumps, and other critical parts where fatigue resistance is paramount. AerMet100 Stainless Steel Powder Applications The unique properties of AerMet100 make it an excellent choice for the following applications: Aerospace Structural brackets, braces, fuselage components Landing gear parts, wing components, empennage Engine mounts, exhaust components Turbine blades, impellers, compressor parts High-strength fasteners, bolts, nuts, rivets Oil & Gas Downhole drill tools and components Wellhead parts, valves, pumps Pressure vessels, pipe fittings Subsea/offshore structural parts Automotive Power generation components Drive systems parts like gears, shafts Structural braces, chassis components High-performance racing components Industrial Robotics parts subject to wear and impact Dies, molds, tooling Fluid handling parts like valves and pumps Other high-cycle loaded components The excellent fatigue strength of AerMet100 makes it an ideal replacement for components traditionally made from titanium or nickel alloys. The high hardness provides good wear resistance as well. AerMet100 Stainless Steel Powder Specifications
Specification Grade/Alloy
AMS 7245 AerMet100
ASTM F3056 AlloySpec 23A
DIN 17224 X3NiCoMoAl 15-7-3
Typical size distributions for AM processing are:
Particle Size Distribution
15-53 μm 98%
<106 μm 99%
Chemical composition must conform to the permissible ranges for elements like Cr, Ni, Co, Mo, C, etc. as outlined in AMS 7245 specification for AerMet100 alloy. Mechanical properties should meet or exceed the minimum values for hardness, tensile strength, yield strength, elongation, and reduction of area stated in AMS 7245. Non-destructive testing like dye penetrant or magnetic particle inspection should show no critical flaws or defects. Powder should have good flowability and exhibit no clumping. Storage and Handling To maintain quality of AerMet100 powder for AM use, the following storage and handling guidelines apply: Store sealed containers in a cool, dry place away from moisture and sources of contamination Avoid exposing powder to high humidity (>60% RH) for prolonged time Allow powder to equilibrate to room temperature prior to unsealing container to prevent condensation Pour and transfer powder in inert environments with low oxygen content if possible Use powder handling equipment and accessories made from compatible materials to prevent contamination Limit reuse of powder to 2-3 cycles maximum to prevent degradation of properties Conduct testing of used powder to ensure it still meets all specifications for reuse Proper storage and careful handling is key to preventing powder oxidation, contamination, or changes in flowability. Safety Information Wear PPE when handling powder – gloves, respirator mask, goggles Avoid skin contact to prevent possible allergic reactions Prevent inhalation of fine powders over long periods Ensure adequate ventilation and dust collection when processing Use non-sparking tools to dispense and handle powder Inert gas blanketing is recommended for powder handling Follow all applicable safety data sheet (SDS) guidelines Dispose according to local regulations and ensure containment AerMet100 alloy powders are generally not hazardous materials but following basic safety practices during storage, handling, and processing is advised. Inspection and Testing To ensure AerMet100 powder meets specifications, the following inspection and testing procedures can be used:
Test Method Property Validated
Visual inspection Powder flowability, contamination
Scanning electron microscopy Particle size distribution and morphology
Energy dispersive X-ray spectroscopy Alloy chemistry, contamination
X-ray diffraction Phases present, contamination
Hall flowmeter Powder flow rate
Apparent density Powder packing density
Tap density test Powder flowability
Sieve analysis Particle size distribution per ASTM B214
Chemical analysis Composition per AMS 7245, oxides
Density measurement Powder density vs AMS 7245
Mechanical testing of printed specimens per AMS 7245 validates final part properties meet requirements. Testing methods include hardness, tensile, charpy impact, high cycle fatigue, low cycle fatigue, creep rupture, fracture toughness, corrosion, etc. AerMet100 Stainless Steel Powder Comparison to Similar Materials
Alloy Strength Ductility Weldability Cost
AerMet100 Very high Moderate Fair Moderate
17-4PH High Low Poor Low
Custom 465 Very high Low Poor High
316L Moderate High Excellent Low
Inconel 718 High High Moderate Very high
Advantages of AerMet100: Higher strength than 17-4PH and 316L Better ductility than Custom 465 for higher impact resistance More weldable than precipitation hardening alloys Lower cost than Inconel 718 Limitations of AerMet100: Lower ductility/fracture toughness than austenitic 316L Inferior weldability compared to 316L Higher cost than 17-4PH or 316L Lower strength than Custom 465 in peak aged condition Overall, AerMet100 provides an optimal combination of strength, ductility, weldability, and cost for high-performance parts made by AM processes. FAQ Q: What are the key benefits of AerMet100 alloy? A: The main benefits of AerMet100 are its high strength and hardness coupled with good ductility, excellent fatigue resistance, creep resistance, corrosion resistance, and moderate cost. This makes it well suited for critical AM applications. Q: What heat treatment is used for AerMet100? A: A typical heat treatment is 1-2 hours solutionizing at 1040-1080°C followed by air or furnace cooling to room temperature, then age hardening at 480°C for 4 hours to achieve optimal strength and hardness. Q: What welding methods can be used to join AerMet100 parts? A: Fusion welding methods like GTAW, GMAW, and PAW are recommended for AerMet100 to avoid cracking and minimize distortion. Low heat input and peening of welds is also suggested. Brazing can also produce good joints. Q: How does AerMet100 compare to maraging steels for AM? A: AerMet100 has higher ductility but slightly lower strength than maraging steels like 18Ni300 or 18Ni350. Maraging steels have poor weldability. AerMet100 is a good lower-cost alternative to maraging. Q: Can AerMet100 be machined after AM processing? A: Yes, AerMet100 can be machined after AM but care must be taken to account for work hardening effects. Low cutting forces, carbide tooling, and adequate coolant is recommended. Annealing may be required after extensive machining. Q: What particle size range of AerMet100 powder is optimal for AM? A: The recommended particle size range for AM is 15-45 μm. Finer powders improve resolution but can negatively impact flowability. Coarser powders above 53 μm can cause print defects. The typical sweet spot is 25-35 μm.
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Al 2024 Powder

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Al 2024 Powder

Product Al 2024  Powder
CAS No. 7429-90-5
Appearance Silvery or Metallic 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 Al-4.4Cu-1.5Mg-0.6Mn
Density 2.78g/cm3
Molecular Weight 110-120g/mol
Product Codes NCZ-DCY-178/25

Al 2024 Description:

Al 2024 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

Al 2024 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. Al 2024 powder Al 2024 powder is an aluminum alloy that primarily consists of aluminum, copper, and small amounts of magnesium and manganese. This alloy exhibits exceptional strength and excellent fatigue resistance, making it ideal for applications where lightweight materials with high mechanical properties are required. Al 2024 powder is commonly used in industries such as aerospace, automotive, and sporting goods. Overview of Al 2024 Powder Al 2024 is one of the most popular 2000 series wrought aluminum alloys known for its strength, fatigue resistance, and excellent machinability and corrosion resistance. The copper additions impart substantial strengthening through precipitation hardening while retaining formability and weldability. Key characteristics of Al 2024 powder include: High strength with moderate ductility and toughness Excellent fatigue and fracture resistance Very good machinability and polishability Good weldability and formability High thermal and electrical conductivity Available in range of powder sizes and shapes Al 2024 powder is suitable for aerospace components and other high-performance applications needing strength combined with fabrication capabilities. Chemical Composition of Al 2024 Powder
Element Weight %
Aluminum (Al) 90.7-94.7%
Copper (Cu) 3.8-4.9%
Magnesium (Mg) 1.2-1.8%
Manganese (Mn) 0.3-0.9%
Iron (Fe) 0-0.5%
Silicon (Si) 0-0.5%
Zinc (Zn) 0-0.25%
Chromium (Cr) 0-0.1%
Titanium (Ti) 0-0.15%
Properties of Al 2024 Powder
Property Value
Density 2.77 g/cm3
Melting Point 500-638°C
Thermal Conductivity 121-190 W/mK
Electrical Conductivity 26-35% IACS
Young’s Modulus 73 GPa
Poisson’s Ratio 0.33
Tensile Strength 400-500 MPa
Yield Strength 290-385 MPa
Elongation 8-20%
Hardness 90-150 Vickers
The copper additions result in substantial increase in strength while maintaining moderate ductility and excellent fatigue strength through precipitation hardening. It offers optimal combination of properties for high-performance applications. Production Method for Al 2024 Powder Commercial production methods for Al 2024 powder include: Gas Atomization – Molten alloy stream disintegrated by high pressure inert gas jets into fine spherical powder. Controlled particle size distribution. Water Atomization – High velocity water jet impacts and disintegrates molten metal stream to produce fine irregular powder. Mechanical Alloying – Ball milling a mixture of aluminum and alloying element powders followed by cold compaction and sintering. Electrolysis – Aluminum produced through electrolysis process and then alloyed and atomized. Gas atomization provides the best control over particle characteristics like size, shape and microstructure. Applications of Al 2024 Powder Additive Manufacturing – Used in selective laser melting, direct metal laser sintering to produce complex aerospace and automotive components. Metal Injection Molding – To manufacture small intricate parts with good mechanical properties and corrosion resistance. Powder Metallurgy – Press and sinter process to create high performance automotive and machinery parts. Thermal Spraying – Plasma or arc spraying to deposit protective Al 2024 coatings against wear and corrosion. Welding Filler – Used as filler wire/rod for arc welding of aluminum alloys. Provides excellent weld strength. Pyrotechnics – Added to pyrotechnic compositions as fuel due to flammability of aluminum. Specifications of Al 2024 Powder Al 2024 powder is available in different size ranges, shapes and grades including: Particle Size: From 10 – 150 microns for AM, up to 300 microns for thermal spray processes. Morphology: Spherical, granular, dendritic and irregular shaped particles. Smooth powder flows better. Grades: Conforming to AMS 4255, ASTM B221, EN 573-3, ISO 209 specifications and other custom grades. Purity: From commercial to high purity levels based on chemical composition and application needs. Storage and Handling of Al 2024 Powder Al 2024 powder requires careful storage and handling to prevent: Oxidation and reaction with moisture Dust explosions from ignition of fine powder Inhalation related health problems Safety practices recommended by supplier should be followed Inert gas blanketing, proper grounding, ventilation, and PPE should be used when handling the powder. Testing and Characterization Methods Key test methods used for Al 2024 powder include: Chemical analysis using OES or XRF spectroscopy Particle size distribution as per ASTM B822 standard Morphology analysis through scanning electron microscopy Powder flow rate measurement using Hall flowmeter Density measurement by helium pycnometry Impurities testing by ICP-MS Microstructure examination by X-ray diffraction These tests ensure the powder meets the required chemistry, physical characteristics, and microstructure as per application needs. Comparison Between Al 2024 and Al 7075 Powder Al 2024 and Al 7075 are two high strength aluminum alloy powders compared:
Parameter Al 2024 Al 7075
Alloy type Heat treatable Heat treatable
Cu content 3.8-4.9% 1.2-2%
Zn content 0-0.25% 5.1-6.1%
Strength High Very high
Fracture toughness Higher Moderate
Corrosion resistance Good Moderate
Weldability Fair Poor
Cost Lower Higher
Al 2024 offers better fabricability whereas Al 7075 provides very high strength after heat treatment. Al 2024 is more cost effective. Al 2024 Powder FAQs Q: How is Al 2024 powder produced? A: Al 2024 powder is commercially produced using gas atomization, water atomization, mechanical alloying, and electrolysis techniques. Gas atomization offers the best control of particle size and morphology. Q: What are the main applications of Al 2024 powder? A: The major applications include additive manufacturing, thermal spraying, powder metallurgy, metal injection molding, welding filler, and pyrotechnic compositions where high strength and good corrosion resistance is required. Q: What is the typical particle size used for Al 2024 powder in AM? A: In most metal 3D printing processes, the ideal particle size range for Al 2024 powder is 15-45 microns with spherical morphology and good flow characteristics. Q: Does Al 2024 powder require any special handling precautions? A: Yes, it is recommended to handle fine aluminum powders under inert gases using proper grounding, ventilation and PPE to prevent risk of fires and explosions. Q: Where can I buy Al 2024 powder suitable for aerospace components? A: High purity gas atomized Al 2024 powders meeting aerospace requirements can be sourced from companies like Nanochemazone.
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Al 3104 Powder
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Al 3104 Powder

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Al 3104 Powder

Product Al 3104  Powder
CAS No. 7429-90-5
Appearance Silvery-Gray Metallic 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 Al-1Mn-1Mg
Density 2.72g/cm3
Molecular Weight 27g/mol
Product Codes NCZ-DCY-183/25

Al 3104 Description:

Al 3104 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

Al 3104 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. Al 3104 powder Al 3104 powder is an aluminum alloy composed primarily of aluminum (Al) with small additions of manganese (Mn) and magnesium (Mg). This powder form of the alloy offers distinct advantages in terms of its processability and versatility. It is commonly used in various industries due to its excellent combination of strength, corrosion resistance, and formability. Overview of Al 3104 Powder Al 3104 is a 3000 series wrought aluminum alloy known for its good corrosion resistance, excellent formability and weldability. Manganese additions provide strength through solid solution strengthening while maintaining ductility and toughness. Key characteristics of Al 3104 powder include: Moderate strength with excellent ductility Very good weldability and formability Excellent corrosion resistance High thermal and electrical conductivity Low density Available in various particle size distributions Al 3104 powder is suitable for chemical tanks, utensils, heat exchangers and applications needing moderate strength combined with good corrosion resistance. Chemical Composition of Al 3104 Powder
Element Weight %
Aluminum (Al) Balance
Manganese (Mn) 1.0-1.5%
Silicon (Si) 0.3% max
Iron (Fe) 0.7% max
Copper (Cu) 0.25% max
Magnesium (Mg) 0.25% max
Zinc (Zn) 0.20% max
Chromium (Cr) 0.05-0.20%
Properties of Al 3104 Powder
Property Value
Density 2.73 g/cm3
Melting Point 634-643°C
Thermal Conductivity 134 W/mK
Electrical Conductivity 38-42% IACS
Young’s Modulus 70 GPa
Poisson’s Ratio 0.33
Tensile Strength 150-195 MPa
Yield Strength 95-120 MPa
Elongation 20-30%
Hardness 45-65 Brinell
The alloy offers moderate strength with high ductility and excellent formability. It has very good resistance to atmospheric corrosion and marine environments. Production Method for Al 3104 Powder Common production methods for Al 3104 powder include: Gas Atomization – Molten alloy stream disintegrated with high pressure inert gas jets into fine spherical powder. Controlled particle size distribution. Water Atomization – High velocity water jet used to produce fine irregular Al 3104 particles. More economical but higher oxygen pickup. Mechanical Alloying – Ball milling of aluminum and manganese powder blends followed by cold compaction and sintering. Gas atomization provides the best control over powder characteristics like particle size, shape and microstructure. Applications of Al 3104 Powder Typical applications of Al 3104 powder include: Metal Injection Molding – To manufacture small intricate components needing moderate strength and good corrosion resistance. Additive Manufacturing – Suitable for binder jetting and selective laser melting processes to produce complex aluminum parts. Powder Metallurgy – Press and sinter process to create parts with good mechanical properties and machinability. Thermal Spraying – Wire arc spray deposition to produce protective coatings offering moderate wear and corrosion resistance. Welding Filler – Used as filler wire to provide weld strength similar to base metal. Pigments – Added to paints and plastics to provide shine and corrosion protection. Specifications of Al 3104 Powder Al 3104 powder is available under different size ranges, shapes, purity levels and grades: Particle Size: From 10-150 microns for AM methods, up to 300 microns for thermal spray processes. Morphology: Spherical, granular, dendritic and irregular powder shapes. Smooth powder has better flowability. Purity: From commercial to high purity (99.8%) grades tailored for application. Grades: Conforming to ASTM B209, EN 573, ISO 209 specifications. Custom grades offered. Flowability: Powder can be customized for excellent flow rates above 25 s/50g. Storage and Handling of Al 3104 Powder Al 3104 powder should be properly handled and stored to prevent: Oxidation and reaction with moisture Dust explosion hazards from fine powder Inhalation related health problems Safety practices from supplier SDS should be followed Inert gas blanketing, proper grounding, ventilation, and PPE is recommended when handling the powder. Testing and Characterization Methods Key test methods used for Al 3104 powder include: Chemical analysis using OES or XRF for composition Particle size distribution as per ASTM B822 standard Morphology analysis through SEM Powder flow rate measured by Hall flow funnel Density determination by helium pycnometry Impurity testing by ICP-MS Microstructure examination by X-ray diffraction These tests ensure batch consistency and compliance with application requirements. Comparison Between Al 3104 and Al 3003 Powders Al 3104 and Al 3003 are two aluminum alloy powders compared:
Parameter Al 3104 Al 3003
Alloy type Non-heat treatable Non-heat treatable
Mn content 1.0-1.5% 1.0-1.5%
Strength Slightly lower Slightly higher
Corrosion resistance Excellent Excellent
Weldability Excellent Excellent
Cost Lower Higher
Al 3104 offers slightly better formability whereas Al 3003 provides marginally higher strength. Both offer excellent corrosion resistance. Al 3104 Powder FAQs Q: How is Al 3104 powder produced? A: Al 3104 powder is commercially produced using gas atomization, water atomization, and mechanical alloying followed by sintering. Gas atomization provides the best control of particle characteristics. Q: What are the main applications of Al 3104 powder? A: The major applications of Al 3104 powder include metal injection molding, additive manufacturing, thermal spray coatings, powder metallurgy parts, pigments, and welding filler wire. Q: What is the recommended Al 3104 powder size for binder jet 3D printing? A: For binder jetting process, the typical Al 3104 powder size range is 20-45 microns with near-spherical morphology to enable good powder bed density. Q: Does Al 3104 powder require any special handling precautions? A: Yes, it is recommended to handle aluminum powders carefully in inert atmosphere using proper grounding, ventilation and PPE to prevent fire or explosion hazards. Q: Where can I purchase Al 3104 powder suitable for marine applications? A: Al 3104 powder with high corrosion resistance tailored for marine environments can be purchased from leading manufacturer.
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Al 6061 Powder
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Al 6061 Powder

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Al 6061 Powder

Product Al 6061 Powder
CAS No. 12604-68-1
Appearance Gray Metallic 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 Al-Mg1SiCu
Density 2.7g/cm3
Molecular Weight 26.98g/mol
Product Codes NCZ-DCY-187/25

Al 6061 Description:

Al 6061 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

Al 6061 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. Al 6061 powder Al 6061 powder is a versatile aluminum material composed of various elements to enhance its properties, such as strength, corrosion resistance, and machinability. It is widely used in different industries for its excellent characteristics. Overview of Al 6061 Powder Al 6061 is one of the most versatile heat treatable aluminum alloys. Magnesium and silicon additions allow it to be strengthened through precipitation hardening. The alloy has become immensely popular due to its excellent corrosion resistance, machinability, weldability and medium to high strength. Key characteristics of Al 6061 powder include: Medium to high strength with excellent ductility and toughness Excellent corrosion resistance and finishability Very good weldability and machinability High thermal and electrical conductivity Low density Available in a wide range of powder sizes and shapes Al 6061 powder is used widely for aerospace, marine, automotive, construction and general engineering applications needing lightweight and good mechanical properties. Chemical Composition of Al 6061 Powder
Element Weight %
Aluminum (Al) Balance
Silicon (Si) 0.4-0.8%
Iron (Fe) 0-0.7%
Copper (Cu) 0.15-0.4%
Manganese (Mn) 0-0.15%
Magnesium (Mg) 0.8-1.2%
Chromium (Cr) 0.04-0.35%
Zinc (Zn) 0-0.25%
Titanium (Ti) 0-0.15%
Production Method for Al 6061 Powder Commercial production methods for Al 6061 powder include: Gas Atomization – High pressure inert gas disintegrates molten alloy stream into fine spherical powder with controlled size distribution. Water Atomization – High velocity water jet impacts and disintegrates molten metal to produce fine irregular powder particles. Mechanical Alloying – Ball milling a blend of aluminum and alloying element powders followed by compaction and sintering. Gas atomization provides superior control over the powder characteristics. Applications of Al 6061 Powder Additive Manufacturing – Used in selective laser melting, electron beam melting and binder jetting to produce complex components. Metal Injection Molding – To manufacture small intricate parts with tight tolerances and excellent properties. Powder Metallurgy – Press and sinter process to create high performance automotive and mechanical parts. Thermal Spraying – Wire arc spraying to deposit protective Al 6061 coatings offering wear and corrosion resistance. Welding Filler – Used as filler wire to provide weld strength similar to base metal. Pigments – Added to paints and polymers to provide luster and corrosion protection. Specifications of Al 6061 Powder Al 6061 powder is available under different size ranges, shapes, grades and purity levels: Particle Size: From 10-150 microns for AM methods, up to 300 microns for thermal spray processes. Morphology: Spherical, granular, dendritic and irregular shaped particles. Smooth powder flows better. Purity: From commercial to high purity (99.9%) tailored to meet requirements. Grades: Conforming to ASTM B221, EN 573, and ISO 209 specifications. Custom grades offered. Flowability: Powder can be customized for specific flow rates based on application. Storage and Handling of Al 6061 Powder Al 6061 powder should be properly handled and stored to prevent: Oxidation and reaction with moisture Dust explosion hazards from fine powder Inhalation related health problems Safety practices from supplier SDS should be followed Inert gas storage, adequate ventilation, grounding, and PPE is recommended when handling the powder. Testing and Characterization Methods Key test methods used for Al 6061 powder include: Chemical analysis using OES or XRF for composition Particle size distribution as per ASTM B822 standard Morphology analysis through SEM Powder flow rate measured by Hall flow funnel Density determination by helium pycnometry Impurity testing by ICP-MS Microstructure examination by X-ray diffraction These tests ensure batch consistency and compliance with application requirements. Comparison Between Al 6061 and Al 7075 Powders Al 6061 and Al 7075 are two aluminum alloy powders compared:
Parameter Al 6061 Al 7075
Alloy type Heat treatable Heat treatable
Mg content 0.8-1.2% 2.1-2.9%
Strength Medium Very high
Machinability Excellent Poor
Weldability Excellent Poor
Corrosion resistance Excellent Good
Cost Lower Higher
Al 6061 offers better corrosion resistance and machinability while Al 7075 provides much greater strength after heat treatment. Al 6061 Powder FAQs Q: How is Al 6061 powder produced? A: Al 6061 powder is commercially produced using gas atomization, water atomization, mechanical alloying, and electrolysis techniques. Gas atomization offers optimal control of powder characteristics. Q: What are the main applications of Al 6061 powder? A: Key applications for Al 6061 powder include additive manufacturing, thermal spray coatings, powder metallurgy parts, metal injection molding, pigments, and welding filler wire requiring medium strength and excellent corrosion resistance. Q: What is the recommended Al 6061 powder size for binder jetting? A: For binder jetting process, the typical Al 6061 powder size range is 20-45 microns with spherical morphology to enable good powder bed density and binder infiltration. Q: Does Al 6061 powder require any special handling precautions? A: Yes, it is recommended to handle aluminum alloy powders carefully under inert atmosphere with proper grounding, ventilation and PPE to prevent fire or explosion hazards. Q: Where can I buy Al 6061 powder suitable for aerospace applications? A: High purity gas atomized Al 6061 powder meeting aerospace standards can be purchased from leading manufacturer.
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Al 7075 Powder
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Al 7075 Powder

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Al 7075 Powder

Product Al 7075 Powder
CAS No. 7429-90-5
Appearance Gray Metallic 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 Al-5.6Zn-2.5Mg-1.6Cu
Density 2.81g/cm3
Molecular Weight 270g/mol
Product Codes NCZ-DCY-179/25

Al 7075 Description:

Al 7075 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

Al 7075 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. Al 7075 powder Al 7075 powder is a high-strength aluminum alloy composed primarily of aluminum, zinc, copper, and small amounts of magnesium and chromium. It is renowned for its impressive mechanical properties, making it an ideal choice for applications that require strength, durability, and lightweight characteristics. Al 7075 powder is typically produced through a process called atomization, where molten aluminum is sprayed and solidified into fine powder particles. Overview of Al 7075 Powder Al 7075 is one of the highest strength 7000 series aluminum alloys, offering strength superior to many steels. Zinc is the main alloying addition while magnesium imparts strength through precipitation hardening. Key properties of Al 7075 powder include: Exceptionally high tensile and yield strength High hardness and good fatigue strength Good toughness and moderate ductility Excellent finishing characteristics High corrosion resistance Available in range of powder sizes and shapes Al 7075 powder is ideal for high-performance aerospace and defense components needing the optimal combination of strength, hardness, fatigue resistance, and moderate weldability. Chemical Composition of Al 7075 Powder
Element Weight %
Aluminum (Al) 87.1-91.4%
Zinc (Zn) 5.1-6.1%
Magnesium (Mg) 2.1-2.9%
Copper (Cu) 1.2-2.0%
Iron (Fe) 0-0.5%
Silicon (Si) 0-0.4%
Manganese (Mn) 0-0.3%
Chromium (Cr) 0.18-0.28%
Titanium (Ti) 0-0.2%
Properties of Al 7075 Powder
Property Value
Density 2.81 g/cm3
Melting Point 477–635°C
Thermal Conductivity 130–210 W/mK
Electrical Conductivity 22-30% IACS
Young’s Modulus 71–72 GPa
Poisson’s Ratio 0.33
Tensile Strength 570–635 MPa
Yield Strength 505–570 MPa
Elongation 7–10%
Hardness 150–190 Brinell
The zinc additions result in extremely high strength and hardness while maintaining reasonable ductility and toughness. The alloy has excellent finishing characteristics. Production Method for Al 7075 Powder Commercial production methods for Al 7075 powder include: Gas Atomization – Molten alloy stream disintegrated by inert gas jets into fine spherical powder particles with controlled size distribution. Water Atomization – High pressure water jet used to produce fine Al 7075 powders with irregular shape. Lower cost but higher oxygen pickup. Mechanical Alloying – Ball milling a blend of aluminum and alloying element powders followed by cold compaction and sintering. Gas atomization offers superior control over powder characteristics like particle size, shape and microstructure. Applications of Al 7075 Powder Additive Manufacturing – Used in selective laser melting, direct metal laser sintering to produce complex, lightweight aerospace and defense parts. Metal Injection Molding – To manufacture small intricate components with high strength and moderate corrosion resistance. Powder Metallurgy – Press and sinter process to create high-performance automotive parts and machinery components. Thermal Spraying – Wire arc spraying to deposit very hard and wear resistant Al 7075 coatings. Pyrotechnics – Added as fuel constituent in pyrotechnic compositions due to its high reactivity. Welding Filler – Used as filler wire providing weld strength but limited weldability. Specifications of Al 7075 Powder Al 7075 powder is available in various size ranges, shapes, grades and purity levels: Particle Size: From 10-45 microns for AM methods, up to 120 microns for thermal spray processes. Morphology: Spherical, irregular and mixed particle shapes. Smooth spherical powder has better flowability. Purity: From commercial to high purity grades tailored for the specific application. Grades: Conforming to ASTM B951, AMS 4045, AMS 4282, EN 573-3 and other equivalent standards. Oxygen Content: Varies between 500-1500 ppm based on production method. Lower is better. Storage and Handling of Al 7075 Powder Al 7075 reactive alloy powder must be handled with care to prevent: Oxidation and reaction with moisture Dust explosion hazards from fine powder Inhalation related health problems Safety practices recommended by supplier should be followed Inert gas blanketing, proper grounding, ventilation, and PPE should be utilized for safe handling. Testing and Characterization Methods Key test methods used for Al 7075 powder include: Chemical composition analysis using OES or XRF Particle size distribution as per ASTM B822 standard Morphology analysis through SEM Powder flow rate using Hall flowmeter Density measurement by helium pycnometry Impurities testing by ICP-MS Microstructure examination by X-ray diffraction These tests ensure the powder meets the required chemical, physical, and microstructural characteristics for the specific application. Comparison Between Al 7075 and Al 6061 Powder
Parameter Al 7075 Al 6061
Alloy type Heat treatable Heat treatable
Zn content 5.1-6.1% 0%
Mg content 2.1-2.9% 0.8-1.2%
Strength Much higher Moderate
Machinability Poor Excellent
Weldability Poor Very good
Corrosion resistance Moderate Excellent
Cost Higher Lower
Al 7075 offers very high strength whereas Al 6061 provides better corrosion resistance, weldability and machinability at lower cost. Al 7075 Powder FAQs Q: How is Al 7075 powder produced? A: Al 7075 powder is commercially produced using gas atomization, water atomization, mechanical alloying and electrolysis techniques. Gas atomization offers the best control of particle characteristics. Q: What are the main applications for Al 7075 powder? A: The major applications for Al 7075 are additive manufacturing, thermal spray coatings, powder metallurgy parts manufacturing, metal injection molding, and pyrotechnic compositions requiring exceptionally high strength. Q: What is the recommended particle size for Al 7075 powder in AM? A: For most metal 3D printing processes, the ideal particle size range for Al 7075 is 15-45 microns with spherical morphology and good powder flowability. Q: Does Al 7075 powder require any special handling precautions? A: Yes, it is recommended to handle reactive aluminum alloy powders carefully under inert atmosphere using proper grounding, ventilation and PPE. Q: Where can I purchase ultrafine Al 7075 powder suitable for aerospace components? A: High purity, gas atomized ultrafine Al 7075 powders meeting aerospace requirements can be sourced from leading supplier.
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AlSi50 Powder
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AlSi50 Powder

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AlSi50 Powder

Product AlSi50 Powder
CAS No. 11145-27-0
Appearance Gray Metallic 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 AlSi
Density 2.5-2-7g/cm3
Molecular Weight N/A
Product Codes NCZ-DCY-194/25

AlSi50 Description:

AlSi50 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

AlSi50 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. AlSi50 Powder AlSi50 is an aluminum-silicon alloy powder containing 50% silicon and remainder aluminum. It offers an exceptional combination of properties like low density, high fluidity, low thermal expansion, high specific strength, and corrosion resistance. AlSi50 is an aluminum-silicon alloy powder containing 50% silicon and remainder aluminum. It offers an exceptional combination of properties like low density, high fluidity, low thermal expansion, high specific strength, and corrosion resistance. AlSi50 Powder Composition The typical composition of AlSi50 alloy powder is:
Element Composition
Aluminum (Al) Balance
Silicon (Si) 48-52%
Aluminum forms the matrix providing ductility, toughness and corrosion resistance. Silicon increases hardness, fluidity and reduces the coefficient of thermal expansion. The high 50% silicon content results in a eutectic composition with the lowest possible melting point and excellent castability. Strict control of the Al to Si ratio is critical. Properties of AlSi50 Powder AlSi50 powder possesses a unique mix of properties making it suitable for high performance applications:
Property Value
Density 2.55 g/cm3
Melting Point 577°C
Ultimate Tensile Strength 200-300 MPa
Elongation <1%
Hardness 100-120 HB
Thermal Conductivity 50-90 W/m-K
CTE 12-15 x 10<sup>-6</sup>/°C
Young’s Modulus 80-90 GPa
Corrosion Resistance Excellent
Low density – Up to 40% lower than titanium alloys and steels. High fluidity when molten – Enables excellent castability and mold filling. High strength-to-weight ratio – Specific strength comparable to titanium alloys. Low coefficient of thermal expansion – Dimensions remain stable over a wide temperature range. Excellent corrosion resistance – Protective oxide layer prevents corrosion in most environments. Good thermal conductivity – Twice that of titanium alloys allowing efficient heat dissipation. This unique property profile makes AlSi50 suitable for applications where low mass, precision, stability, and strength are critical. Applications of AlSi50 Powder The key properties of AlSi50 powder make it ideal for:
Applications Benefits
Automotive components Low density and excellent castability.
Aerospace parts High specific strength, stable dimensions.
Electronic substrates Thermal management, CTE match with ceramics.
Mirror blanks Low density, machinability, stability.
Medical implants Biocompatible, non-toxic, corrosion resistant.
Automotive – Used in pistons, engine blocks, drivetrain parts to reduce weight and improve fuel efficiency. Aerospace – Ideal for precision aerospace components like actuators and turbocharger wheels requiring highest strength-to-weight. Electronics – Substrates for PCBs, IC packages to manage thermal loads while matching expansion behavior of ceramics. Optics – Mirror blanks, telescopes benefit from high dimensional stability and machinability. Medical – Excellent biocompatibility and corrosion resistance for implants like orthopedic devices. AlSi50 Powder Specifications AlSi50 powder is available in various size fractions, shapes, and purity levels:
Parameter Options
Particle size 10 – 150 microns
Particle shape Irregular, spherical
Apparent density Up to 2.7 g/cm3
Flow rate Up to 25 s/50g
Purity Up to 99.7%
Alloy variants AlSi40, AlSi30
Smaller particles promote higher sintered density while large particles improve flowability. Spherical morphology enhances powder flow compared to irregular particles. Higher apparent density increases effective loading in composites manufacturing. Faster flow rates improve ease of powder handling and processing. High purity grades minimize contamination issues. Aluminum-silicon alloys with 30-40% silicon also available. Powder attributes can be customized based on specific application requirements and processing methods. Consolidation Methods for AlSi50 Powder AlSi50 powder can be transformed into full density components using techniques like:
Method Details
Additive manufacturing Excellent geometric freedom for complex shapes.
Metal injection molding High precision net shape capability.
Press and sinter Economical for higher volume simpler shapes.
Casting Leverages excellent fluidity and mold filling behavior.
Extrusion For profiles, rods and tubes.
Powder bed fusion AM techniques like selective laser melting are ideal for low volume complex parts. Metal injection molding offers closest tolerances and surface finish. Pressing followed by liquid phase sintering is commonly used but secondary processing needed. Investment casting provides higher productivity for simpler geometries. Extrusion is suitable for continuous production of bars, rods and tubes. The consolidation method strongly influences final properties, microstructure and cost economics. Heat Treatment of AlSi50 Parts The following heat treatments can be used to modify AlSi50 properties:
Heat Treatment Details Purpose
Solution heat treatment 500-550°C, quench Dissolve soluble phases
Artificial aging 150-180°C, 5-10 hrs Precipitation hardening
Stress relieving 250°C, 2 hrs Remove residual stresses
Solution treatment dissolves silicon particles in the aluminum matrix followed by rapid cooling. Subsequent aging causes silicon to re-precipitate as fine dispersoids imparting strengthening. Low temperature stress relieving helps reduce residual stresses from prior shaping steps. Proper heat treatment allows customizing the strength, hardness and ductility as per application requirements. Comparison of AlSi50 Powder with Alternatives Here is how AlSi50 compares to other eutectic aluminum-silicon alloys:
Alloy AlSi50 AlSi40 AlSi30
Fluidity Highest High Medium
Castability Excellent Very Good Good
Hardness High Medium Low
Strength High Medium Low
Thermal Conductivity Medium High Highest
CTE Low Medium High
Cost High Medium Low
AlSi40 offers the best all-round combination of fluidity, strength and thermal conductivity. AlSi30 provides highest thermal conductivity but lowest strength and fluidity. AlSi50 has the highest fluidity, hardness and strength but lower thermal conductivity. AlSi50 is preferred where maximum castability, dimensional stability, and high specific strength are critical. Health and Safety Considerations for AlSi50 Powder Like any metal powder, AlSi50 powder requires safe handling:
Hazard Precautions PPE
Skin/eye contact Avoid direct contact. Rinse if exposed. Gloves, goggles
Inhalation Avoid breathing dust. Ensure ventilation. Respirator
Ingestion Avoid hand-mouth transfer. Wash hands. –
Fire Use sand. Do not use water. Protective gear
Wear gloves, goggles, mask when handling powder. Avoid skin contact. Wash after exposure. Store in cool, dry place away from sparks, flames. Ensure proper ventilation and dust collection. Refer SDS and local regulations for complete guidelines. With proper precautions and PPE, AlSi50 powder can be safely handled. Inspection and Testing of AlSi50 Powder To ensure quality specifications are met, AlSi50 powder should undergo:
Parameter Method Specification
Chemical composition OES, XRF, wet chemistry Conformance to Al and Si content
Particle size distribution Laser diffraction, sieving D10, D50, D90 within range
Powder morphology SEM imaging Shape and flow characteristics
Apparent density Hall flowmeter test Minimum specified density
Flow rate Hall flowmeter test Maximum seconds for 50g flow
Impurity levels ICP or LECO analysis Low oxygen, moisture content
Testing should be done periodically as per ASTM standards to ensure consistency in production quality and performance in end-use applications. FAQs
  1. What is AlSi50 used for?
  2. AlSi50 is ideal for applications like automotive components, aerospace parts, and electronic substrates where low mass, dimensional stability, and high fluidity are critical.
  3. Does AlSi50 require heat treatment?
  4. Optional heat treatment including solutionizing and aging can be done to enhance strength by precipitating silicon particles in the microstructure.
  5. What methods can consolidate AlSi50 powder?
  6. AlSi50 powder can be consolidated to full density using metal injection molding, casting, additive manufacturing via SLM/EBM, extrusion, and sintering.
  7. Is AlSi50 readily weldable?
  8. AlSi50 has relatively poor weldability owing to high silicon content. Special filler material and techniques are required for welding this alloy.
  9. Is AlSi50 powder safe to handle?
  10. Like any fine metal powder, standard safety precautions must be taken when handling AlSi50 powder to minimize health and safety risks.
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