300M Stainless Steel Powder
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300M Stainless Steel Powder
| Product | 300M Stainless Steel Powder |
| CAS No. | 12597-68-1 |
| Appearance | Fine 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 | Fe-Cr-Ni |
| Density | 7.9g/cm3 |
| Molecular Weight | N/A |
| Product Codes | NCZ-DCY-168/25 |
300M Stainless Steel Description:
300M 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
300M Stainless Steel 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.
300M Stainless Steel Powder
300M stainless steel powder is a specialized material used in powder metallurgy and additive manufacturing applications. This high-alloy austenitic stainless steel exhibits excellent corrosion resistance and high strength properties.
300M powder can be used to create complex metal components using advanced manufacturing techniques like selective laser sintering (SLS), direct metal laser sintering (DMLS), and binder jetting. The fine spherical powders spread easily and sinter uniformly, producing dense parts
300M has a high nickel and chromium content which gives it excellent corrosion resistance comparable to 304 and 316 stainless steel. The composition is controlled within narrow ranges as shown below:
300M Stainless Steel Powder Composition
| Element | Composition Range |
| Carbon (C) | 0.05% max |
| Silicon (Si) | 1.0% max |
| Manganese (Mn) | 2.0% max |
| Phosphorus (P) | 0.03% max |
| Sulfur (S) | 0.01% max |
| Chromium (Cr) | 24.0-26.0% |
| Nickel (Ni) | 19.0-22.0% |
| Molybdenum (Mo) | 4.0-5.0% |
| Nitrogen (N) | 0.10-0.16% |
| Iron (Fe) | Balance |
The key alloying elements like chromium, nickel, and molybdenum give 300M stainless its unique properties. The high chromium content provides excellent corrosion and oxidation resistance. Nickel further enhances this by making the steel more resistant to reducing acids. Molybdenum improves pitting and crevice corrosion resistance in chlorides.
Nitrogen is also added to stabilize the austenitic structure and increase strength through solid solution strengthening. Carbon is restricted to minimize carbide precipitation. The end result is a versatile corrosion resistant steel powder ideal for additive manufacturing.
300M Stainless Steel Powder Properties
300M stainless steel provides an excellent combination of high strength and good ductility along with outstanding corrosion resistance. Some key properties are outlined below:
300M Stainless Steel Powder Properties
| Property | Value |
| Density | 7.9 g/cm3 |
| Melting Point | 1370°C (2500°F) |
| Thermal Conductivity | 12 W/m-K |
| Electrical Resistivity | 72 μΩ-cm |
| Modulus of Elasticity | 200 GPa |
| Poisson’s Ratio | 0.29 |
| Tensile Strength | 165ksi (1140 MPa) |
| Yield Strength | 140ksi (965 MPa) |
| Elongation | 35% |
The austenitic structure gives 300M enhanced toughness and ductility compared to martensitic grades. It also makes the steel non-magnetic. The material has good strength up to 600°C and can be used at cryogenic temperatures. Corrosion resistance is comparable to 316L grade. Wear resistance is lower than martensitic grades but machinability is excellent.
Overall, 300M offers an exceptional balance of strength, ductility, fracture toughness, and corrosion resistance making it suitable for demanding additive manufacturing applications across industries like aerospace, chemical processing, oil & gas, etc.
300M Stainless Steel Powder Applications
| Industry | Common Applications |
| Aerospace | Engine components, structural parts, landing gear |
| Automotive | Valve bodies, pump parts, turbocharger components |
| Medical | Implants, prosthetics, surgical instruments |
| Chemical | Pumps, valves, pipe fittings |
| Oil & Gas | Downhole tools, wellhead parts, offshore components |
| Industrial | Food processing equipment, press plates, dies and molds |
| Consumer | Watch cases, jewelry, decorative artware |
The excellent corrosion resistance allows 300M to withstand harsh operating environments in industries like oil & gas, chemical processing, pollution control, etc. where parts are exposed to acids, alkalis, salts, or chlorides.
In aerospace applications, it offers high strength for weight reduction combined with good creep and fatigue resistance at elevated temperatures. The austenitic structure gives excellent fracture toughness.
In medical uses like implants and surgical tools, the good biocompatibility and high strength of 300M stainless are advantageous. For consumer products, the attractive appearance and ability to polish to a mirror finish make it suitable for decorative applications.
Additive manufacturing enables producing components with complex geometries and internal features which are not possible with conventional fabrication routes. This expands the design freedom and range of applications for 300M stainless steel powder.
300M Stainless Steel Powder Specifications
300M powder is commercially available in different size ranges, morphologies, and blends tailored for various additive manufacturing processes. Some key specifications are provided below:
300M Stainless Steel Powder Specifications
| Parameter | Typical Values |
| Particle shape | Spherical, satellite, irregular |
| Particle size | 15-45 μm, 15-53 μm, 53-150 μm |
| Apparent density | 2.5-4.5 g/cm3 |
| Tap density | 3.5-4.5 g/cm3 |
| Flow rate | 15-25 s/50g |
| Carbon content | < 0.05 wt% |
| Oxygen content | < 0.15 wt% |
| Nitrogen content | 0.10-0.16 wt% |
| Hydrogen content | < 0.0015 wt% |
Spherical powders spread easily and have good flowability for uniform layer deposition. They are ideal for SLS/DMLS processes.
Irregular and satellite morphologies provide better packing density for binder jetting.
Smaller particle sizes (~20 μm) are preferred for better resolution and surface finish.
Larger sizes (~45-150 μm) improve powder flow and reduce recoater jamming.
chemistry, especially of interstitial elements like C, N, O, H is controlled to avoid vaporization and porosity issues during printing.
Gases like nitrogen and argon may be used during atomization to minimize oxidation and hydrogen pickup. Alloying elements are adjusted to compensate for vapor losses during processing.
300M Stainless Steel Powder Handling
300M powder should be handled with care to avoid contamination or mixing with other materials. Some guidelines are provided below:
300M Stainless Steel Powder Handling
Store unopened containers in a dry, inert environment to prevent oxidation and moisture pickup
Open containers inside gloveboxes filled with argon to prevent air exposure
Use tools and containers dedicated only for 300M to prevent cross-contamination
Avoid contact with iron or carbon to prevent composition changes
Measure powder weight accurately before reuse to control blend ratios
Sieve powders before reuse to break up agglomerates and remove large particles
Do not pour powder directly back into the main container to prevent mixing of new and used powder
Clean equipment thoroughly between handling batches to prevent cross-contamination
Proper handling and storage helps maintain the powder composition, morphology, flowability and reuse properties. Contamination can negatively impact material properties or cause printing defects.
300M Stainless Steel Powder Storage
300M powder should be stored in the following conditions:
300M Stainless Steel Powder Storage
Store in original sealed containers until ready to use
Use inert gas sealing or vacuum packaging for long-term storage
Store in a cool, dry location away from direct sunlight
Ambient temperatures between 10-25°C are ideal for storage
Avoid temperature swings and humidity which can cause condensation
Use desiccant bags when opening containers to absorb moisture
Limit storage time to 6-12 months for pre-alloyed powders to avoid oxidation
Rotate stock using a first-in-first-out (FIFO) system
Proper storage is crucial to prevent powder degradation over time by moisture, oxygen, or other environmental factors. Follow the manufacturer’s recommendations for maximum shelf life.
300M Stainless Steel Powder Safety
300M powder requires handling precautions similar to other fine stainless steel powders:
300M Stainless Steel Powder Safety
Use appropriate PPE during handling – gloves, respirators, eye protection
Avoid breathing powder dust – use ventilation and masks
Avoid skin contact to prevent sensitization – use gloves
Use spark-proof tools and vacuum systems designed for combustible dust
Inert gas gloveboxes provide protection during handling
Explosion proof lighting and electrical equipment are recommended
Follow SDS precautions and wear PPE mentioned during processing
Maintain cleanliness to avoid particle accumulation and minimize risks
Use dust collection systems and housekeeping procedures to lower combustible dust hazards
Finely divided powders pose risks like sensitization from prolonged exposure and explosion hazards from dust accumulation. Awareness, training, and safe practices are essential.
300M Stainless Steel Powder Printing
300M requires optimized printing parameters tailored for the alloy:
300M Stainless Steel Printing Parameters
Laser power/energy density: 150-220 W, 50-90 J/mm3
Scan speeds: 600-1200 mm/s
Hatch spacing: 80-120 μm
Layer thickness: 20-50 μm
Counterflow argon is preferred over nitrogen
Oxygen levels below 1000 ppm prevent oxidation
Preheating to 80-150°C reduces residual stresses
Stress relief heat treatments mandatory to prevent cracking
Key considerations include minimizing thermal stresses and avoiding hot cracking issues to achieve high density prints. Some degree of parameter tweaking is needed to optimize for specific printer models.
300M Stainless Steel Powder Post-Processing
Typical post-processing methods for 300M parts include:
300M Stainless Steel Part Post-Processing
Support removal using EDM or sand blasting
Stress relieving at 1065-1120°C for 1-2 hours to prevent cracking
Hot isostatic pressing (HIP) to eliminate internal voids and improve fatigue strength
Heat treatment at 900-950°C to adjust hardness/strength
Sanding, bead blasting, grinding, polishing to improve surface finish
Passivation in nitric acid for removing heat tint and enhancing corrosion resistance
Shot peening to induce compressive stresses and improve fatigue life
Coatings like PVD, CVD can provide wear/corrosion resistance or unique appearances
Multi-step finishing is often necessary to achieve the desired material properties, dimensional accuracy, surface quality, and aesthetics. The process depends on application requirements.
300M Stainless Steel Powder Quality Control
Extensive testing should be performed to ensure powder and printed part quality:
300M Stainless Steel Powder Testing
Proper handling and storage helps maintain the powder composition, morphology, flowability and reuse properties. Contamination can negatively impact material properties or cause printing defects.
300M Stainless Steel Powder Storage
300M powder should be stored in the following conditions:
300M Stainless Steel Powder Storage
Store in original sealed containers until ready to use
Use inert gas sealing or vacuum packaging for long-term storage
Store in a cool, dry location away from direct sunlight
Ambient temperatures between 10-25°C are ideal for storage
Avoid temperature swings and humidity which can cause condensation
Use desiccant bags when opening containers to absorb moisture
Limit storage time to 6-12 months for pre-alloyed powders to avoid oxidation
Rotate stock using a first-in-first-out (FIFO) system
Proper storage is crucial to prevent powder degradation over time by moisture, oxygen, or other environmental factors. Follow the manufacturer’s recommendations for maximum shelf life.
300M Stainless Steel Powder Safety
300M powder requires handling precautions similar to other fine stainless steel powders:
300M Stainless Steel Powder Safety
Use appropriate PPE during handling – gloves, respirators, eye protection
Avoid breathing powder dust – use ventilation and mask
Avoid skin contact to prevent sensitization – use gloves
Use spark-proof tools and vacuum systems designed for combustible dust
Inert gas gloveboxes provide protection during handling
Explosion proof lighting and electrical equipment are recommended
Follow SDS precautions and wear PPE mentioned during processing
Maintain cleanliness to avoid particle accumulation and minimize risks
Use dust collection systems and housekeeping procedures to lower combustible dust hazards
Finely divided powders pose risks like sensitization from prolonged exposure and explosion hazards from dust accumulation. Awareness, training, and safe practices are essential.
300M Stainless Steel Powder Printing
300M requires optimized printing parameters tailored for the alloy:
300M Stainless Steel Printing Parameters
Laser power/energy density: 150-220 W, 50-90 J/mm3
Scan speeds: 600-1200 mm/s
Hatch spacing: 80-120 μm
Layer thickness: 20-50 μm
Counterflow argon is preferred over nitrogen
Oxygen levels below 1000 ppm prevent oxidation
Preheating to 80-150°C reduces residual stresses
Stress relief heat treatments mandatory to prevent cracking
Key considerations include minimizing thermal stresses and avoiding hot cracking issues to achieve high density prints. Some degree of parameter tweaking is needed to optimize for specific printer models.
300M Stainless Steel Powder Post-Processing
Typical post-processing methods for 300M parts include:
300M Stainless Steel Part Post-Processing
Support removal using EDM or sand blasting
Stress relieving at 1065-1120°C for 1-2 hours to prevent cracking
Hot isostatic pressing (HIP) to eliminate internal voids and improve fatigue strength
Heat treatment at 900-950°C to adjust hardness/strength
Sanding, bead blasting, grinding, polishing to improve surface finish
Passivation in nitric acid for removing heat tint and enhancing corrosion resistance
Shot peening to induce compressive stresses and improve fatigue life
Coatings like PVD, CVD can provide wear/corrosion resistance or unique appearances
Multi-step finishing is often necessary to achieve the desired material properties, dimensional accuracy, surface quality, and aesthetics. The process depends on application requirements.
300M Stainless Steel Powder Quality Control
Extensive testing should be performed to ensure powder and printed part quality:
300M Stainless Steel Powder Testing
| Proper handling and storage helps maintain the powder composition, morphology, flowability and reuse properties. Contamination can negatively impact material properties or cause printing defects. | Proper handling and storage helps maintain the powder composition, morphology, flowability and reuse properties. Contamination can negatively impact material properties or cause printing defects. |
| 300M Stainless Steel Powder Storage | 300M Stainless Steel Powder Storage |
| 300M powder should be stored in the following conditions: | 300M powder should be stored in the following conditions: |
| 300M Stainless Steel Powder Storage | 300M Stainless Steel Powder Storage |
| Store in original sealed containers until ready to use | Store in original sealed containers until ready to use |
| Use inert gas sealing or vacuum packaging for long-term storage | Use inert gas sealing or vacuum packaging for long-term storage |
| Store in a cool, dry location away from direct sunlight | Store in a cool, dry location away from direct sunlight |
300M Stainless Steel Part Testing
| Test | Details |
| Density | Archimedes’, Helium pycnometry |
| Surface roughness | Profilometer, interferometry |
| Hardness | Rockwell, Vickers, Brinell |
| Tensile strength | ASTM E8 |
| Microstructure | Optical microscopy, image analysis |
| Layer bonding | Electron microscopy, dye penetrant |
| Porosity | X-ray tomography, image analysis |
| Surface defects | Penetrant testing, microscopy |
Comprehensive testing as per industrial standards ensures consistent powder quality and printed part performance. It minimizes defects and prevents part failures in service.
Advantages of 300M Stainless Steel Powder
Some of the advantages of using 300M powder for additive manufacturing include:
Excellent corrosion resistance comparable to 316L stainless steel
High strength with good ductility and fracture toughness
Can be processed easily using laser powder bed fusion, binder jetting, etc.
Good dimensional accuracy and surface finish in printed parts
Performs well in harsh environments and at elevated temperatures
Can produce complex geometries not possible with conventional methods
Parts can be heat treated to tailor properties like hardness, strength, etc.
Offers design flexibility not limited by typical manufacturing constraints
Saves material, energy, and costs versus subtractive methods
Widely available from leading suppliers to ensure reliable material supply
The combination of outstanding material properties, advanced manufacturability, and customizability make 300M an ideal alloy for mission-critical AM components across industries.
Limitations of 300M Stainless Steel Powder
300M also has some limitations to consider:
More expensive than common alloys like 316L or 17-4PH stainless
Requires optimized processing parameters tailored for the alloy
Sensitive to contamination from improper powder handling
Need for hot isostatic pressing (HIP) to eliminate internal voids
Lower wear resistance than martensitic stainless steel powders
Requires post-processing and finishing operations
High thermal stresses can cause cracking; heat treatments mandatory
Oxidation and nitrogen absorption can occur during processing
Parts may require supports to avoid deformation during printing
Limited number of suppliers compared to more common alloys
The specialized composition, high cost, and need for controlled processing conditions limit its use to critical applications where performance justifies the higher cost.
300M vs 316L vs 17-4PH Stainless Steel Powder
How does 300M compare against other popular stainless steel powders like 316L and 17-4PH?
Comparison of Stainless Steel Powders
| Alloy | Composition | Properties | Applications |
| 300M | High Ni, Cr, Mo | Excellent corrosion resistance, good ductility and toughness, high strength to 600°C | Aerospace, oil & gas, chemical, high temp uses |
| 316L | Medium Ni, Cr | Excellent corrosion resistance, readily weldable, good bio-compatibility | Marine hardware, medical implants, food processing |
| 17-4PH | Medium Ni, Cr + Cu | High hardness and strength, good corrosion resistance, heat treatable | Aerospace, tooling, automotive, plastic molds |
300M provides the best combination of corrosion resistance and useful strength at elevated temperatures. 17-4PH is preferred for applications
300M stainless steel powder is a specialized material used in powder metallurgy and additive manufacturing applications. This high-alloy austenitic stainless steel exhibits excellent corrosion resistance and high strength properties.
300M powder can be used to create complex metal components using advanced manufacturing techniques like selective laser sintering (SLS), direct metal laser sintering (DMLS), and binder jetting. The fine spherical powders spread easily and sinter uniformly, producing dense parts.
Here is more content continuing the comparison between 300M, 316L, and 17-4PH stainless steel powders:
Detailed Comparison
300M has higher tensile strength than 316L and lower ductility. It maintains strength up to 600°C better than 316L.
2 316L has the best all-round corrosion resistance followed by 300M and 17-4PH. 300M resists pitting and crevice corrosion better than 316L.
17-4PH achieves the highest hardness after heat treatment but has lower toughness than 300M and 316L.
300M has higher nickel content than 316L and 17-4PH which improves corrosion resistance. 17-4PH contains copper for precipitation hardening.
300M is used in specialized applications requiring strength at elevated temperatures like aerospace components. 316L is widely used in corrosive environments across industries where high strength is not critical.
17-4PH suits applications requiring high hardness like molds, tooling, and wear-resistant parts for automotive and consumer uses.
300M and 17-4PH powders are more expensive than common 316L powder. 17-4PH is relatively easier to process by laser sintering than 300M.
All three are readily weldable grades in the annealed/solutionized condition. 17-4PH requires aging treatment after welding to restore properties.
300M requires stress relieving heat treatments after printing to prevent cracking. 17-4PH is typically H900 heat treated post-build for optimal properties.
In summary, 300M fills a niche between generalized corrosion resistance of 316L and high strength/hardness of martensitic 17-4PH. It provides the best elevated temperature properties crucial for aerospace applications.
300M Stainless Steel Powder Questions
Here are some common questions asked about 300M stainless steel powder:
300M Stainless Steel Powder FAQs
Q: What particle size is best for printing 300M stainless steel?
A: 15-45 microns is recommended for SLM/DMLS. Larger sizes 45-100 microns improve flowability but reduce resolution.
Q: What is the typical density achieved for 300M parts printed by laser powder bed fusion?
A: Printed density over 99% is achievable with optimized parameters. HIP helps eliminate internal voids.
Q: What is the typical surface roughness of as-printed 300M parts?
A: Around 10-15 microns Ra surface roughness is typical, which can be reduced to under 1 micron by polishing.
Q: Does 300M require any post-processing heat treatments?
A: Yes, stress-relieving at 1065-1120°C to prevent cracking followed by cooling at <50°C/hr is recommended.
Q: What are some typical applications of binder-jet printed 300M parts?
A: Tooling components, jigs, fixtures, plastic injection molds are common applications benefitting from the hardness and corrosion resistance.
Q: How should unused 300M powder be stored for reuse?
A: In a dry, inert atmosphere sealed container at 10-25°C for up to 1 year. Store away from iron contamination.
Q: Can you heat treat 300M to increase its hardness?
A: Yes, aging at 900-950°C can increase hardness up to 38 HRC similar to precipitation hardening grades.
This covers some key questions about 300M powder. Please reach out for any other specific queries.
Description
Description
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:hfj
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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| Sulfur (S) | <0.03 |
| Phosphorus (P) | <0.045 |
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| Iron (Fe) | Balance |
| Chromium (Cr) | 17-19% |
| Nickel (Ni) | 11-15% |
| Molybdenum (Mo) | 2.5-3.5% |
| Manganese (Mn) | <2% |
| Carbon (C) | 0.08% max |
| Silicon (Si) | 1% max |
| Nitrogen (N) | 0.10% max |
| Sulfur (S) | 0.03% max |
| Property | Values |
| Density | 8.0 g/cc |
| Melting point | 1370-1400°C |
| Electrical resistivity | 0.8 μΩ-m |
| Thermal conductivity | 16 W/mK |
| Thermal expansion | 16 x 10^-6 /K |
| Maximum service temperature | 900°C |
| Property | Values |
| Tensile strength | 515-620 MPa |
| Yield strength | 205-275 MPa |
| Elongation | 40-50% |
| Hardness | 88-95 HRB |
| Impact strength | 100-150 J |
| Modulus of elasticity | 190-210 GPa |
| Industry | Example Uses |
| Chemical | Tanks, valves, pipes, pumps |
| Petrochemical | Process equipment, tubing, valves |
| Marine | Propeller shafts, fasteners, deck hardware |
| Nuclear | Reactor vessels, fuel element cladding |
| Architectural | Railings, wall panels, roofing |
| Standard | Description |
| ASTM A276 | Standard for stainless steel bars and shapes |
| ASTM A479 | Standard for stainless steel tubing |
| AMS 5524 | Annealed stainless steel bar, wire, forgings |
| ASME SA-276 | Specification for stainless steel bars and shapes |
| AISI 630 | Standard for 17Cr-4Ni precipitation hardening stainless steel |
| Particle Size | Characteristics |
| 10-45 microns | Ultrafine grade for high density and surface finish |
| 45-150 microns | Coarse grade provides good flowability |
| 15-150 microns | Standard grade for pressing and sintering |
| 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 |
| 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 |
| 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 |
| Test | Details |
| Chemical analysis | ICP and XRF verify composition |
| Particle size distribution | Laser diffraction determines size distribution |
| Apparent density | Hall flowmeter test per ASTM B212 standard |
| Powder morphology | SEM imaging shows particle shape |
| Flow rate analysis | Gravity flow rate through specified nozzle |
| Loss on ignition | Determines residual moisture content |
| Parameter | 317L | 316L |
| Density | 8.0 g/cc | 8.0 g/cc |
| Strength | 515-620 MPa | 485-550 MPa |
| Corrosion resistance | Excellent | Outstanding |
| Pitting resistance | Very good | Excellent |
| Cost | Low | High |
| Uses | Process industry, marine | Chemical, pharmaceutical |
430L Powder
430L Powder
| Product | 430L Powder |
| CAS No. | 12597-68-1 |
| Appearance | Silvery or 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 | Fe-16Cr |
| Density | 7.7g/cm3 |
| Molecular Weight | 150-160 g/mol |
| Product Codes | NCZ-DCY-174/25 |
430L Description:
430L 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 pricing430L 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. 430L Powder 430L powder is a ferritic stainless steel powder containing 17% chromium with additions of molybdenum and niobium for enhanced corrosion resistance. It provides an optimal balance of corrosion resistance, strength, weldability and cost. Overview of 430L Powder 430L powder is a ferritic stainless steel powder containing 17% chromium with additions of molybdenum and niobium for enhanced corrosion resistance. It provides an optimal balance of corrosion resistance, strength, weldability and cost. Key properties and advantages of 430L powder: 430L Powder Properties and Characteristics| Properties | Details |
| Composition | Fe-17Cr-Nb-Mo alloy |
| Density | 7.7 g/cc |
| Particle shape | Irregular, angular |
| Size range | 10-150 microns |
| Apparent density | Up to 50% of true density |
| Flowability | Moderate |
| Corrosion resistance | Excellent in many environments |
| Strengthening | Solid solution and precipitation strengthening |
| Element | Weight % |
| Iron (Fe) | Balance |
| Chromium (Cr) | 16-18% |
| Carbon (C) | 0.12% max |
| Silicon (Si) | 1% max |
| Manganese (Mn) | 1% max |
| Molybdenum (Mo) | 0.5% max |
| Niobium (Nb) | 0.3-0.6% |
| Nitrogen (N) | 0.03% max |
| Sulfur (S) | 0.03% max |
| Property | Values |
| Density | 7.7 g/cc |
| Melting point | 1400-1450°C |
| Electrical resistivity | 0.6-0.7 μΩ-m |
| Thermal conductivity | 26 W/mK |
| Curie temperature | 1440°C |
| Maximum service temperature | 650-750°C |
| Property | Values |
| Tensile strength | 450-650 MPa |
| Yield strength | 250-350 MPa |
| Elongation | 35-45% |
| Modulus of elasticity | 190-210 GPa |
| Hardness | 80-90 HRB |
| Impact strength | 50-100 J |
| Industry | Example Uses |
| Chemical | Tanks, valves, pipes, pumps |
| Automotive | Exhaust components, fuel injection parts |
| Construction | Cladding, architectural features |
| Oil and gas | Wellhead equipment, drilling tools |
| Manufacturing | Pressing tooling, molds, dies |
| Standard | Description |
| ASTM A743 | Standard for corrosion resistant chromium steel castings |
| ASTM A744 | Standard for corrosion resistant chromium steel sheet and strip |
| AMS 5759 | Annealed corrosion resistant steel bar, wire, forgings |
| SAE J405 | Automotive weathering steel sheet |
| DIN 17440 | Stainless steels for corrosion resistant applications |
| Particle Size | Characteristics |
| 10-45 microns | Ultrafine grade for high density and surface finish |
| 45-150 microns | Coarse grade provides good flowability |
| 15-150 microns | Standard grade for pressing and sintering |
| Apparent Density | Details |
| Up to 50% of true density | For irregular powder morphology |
| 3.5-4.5 g/cc typical | Improves with greater packing density |
| 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 |
| 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 during handling |
| Follow safety protocols | Reduce risk of burns, inhalation, and ingestion |
| Store in stable containers | Prevent contamination or oxidation |
| Test | Details |
| Chemical analysis | ICP and XRF verify composition |
| Particle size distribution | Laser diffraction determines size distribution |
| Apparent density | Hall flowmeter test per ASTM B212 standard |
| Powder morphology | SEM imaging shows particle shape |
| Flow rate analysis | Gravity flow rate through specified nozzle |
| Loss on ignition | Determines residual moisture content |
| Parameter | 430L | 304L |
| Density | 7.7 g/cc | 8.0 g/cc |
| Strength | 450-650 MPa | 520-620 MPa |
| Corrosion resistance | Excellent | Outstanding |
| Heat resistance | Good | Excellent |
| Weldability | Good | Excellent |
| Cost | Low | High |
| Uses | Automotive, construction | Chemical processing, marine |
Al 3003 Powder
Al 3003 Powder
| Product | Al 3003 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-1.2Mn-0.12Cu |
| Density | 2.73g/cm3 |
| Molecular Weight | 27g/mol |
| Product Codes | NCZ-DCY-179/25 |
Al 3003 Description:
Al 3003 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 pricingAl 3003 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 3003 powder Al 3003 powder is an aluminum alloy powder composed mainly of aluminum and manganese. It belongs to the 3xxx series of aluminum alloys, which are known for their excellent workability and corrosion resistance. The powder form allows for easy handling and processing, making it suitable for various manufacturing techniques. Overview of Al 3003 Powder Al 3003 or 3A21 aluminum is a wrought alloy known for its good cold formability, weldability and corrosion resistance. The manganese additions enhance strength through solid solution strengthening while maintaining workability. Key characteristics of Al 3003 powder include: Moderate strength with good ductility Excellent formability and weldability Good corrosion resistance High thermal and electrical conductivity Low density Available in a range of powder sizes and shapes Al 3003 powder is used widely in chemical tanks, pipeline, automotive parts, heat exchangers, utensils, and other applications needing moderate strength, formability and corrosion resistance. Chemical Composition of Al 3003 Powder| Element | Weight % |
| Aluminum (Al) | Balance |
| Manganese (Mn) | 1.0-1.5% |
| Iron (Fe) | 0.7% max |
| Silicon (Si) | 0.6% max |
| Copper (Cu) | 0.05-0.20% |
| Zinc (Zn) | 0.10% max |
| Magnesium (Mg) | 0.10% max |
| Chromium (Cr) | 0.10% max |
| Property | Value |
| Density | 2.73 g/cm3 |
| Melting Point | 645-650°C |
| Thermal Conductivity | 180 W/mK |
| Electrical Conductivity | 43-44% IACS |
| Young’s Modulus | 68-72 GPa |
| Poisson’s Ratio | 0.33 |
| Tensile Strength | 145-185 MPa |
| Yield Strength | 110-140 MPa |
| Elongation | 12-20% |
| Hardness | 35-55 Brinell |
| Parameter | Al 3003 | Al 6061 |
| Alloy type | Non-heat treatable | Heat treatable |
| Mn content | 1.0-1.5% | 0.15% max |
| Mg content | 0.1% max | 0.8-1.2% |
| Strength | Moderate | Higher |
| Corrosion resistance | Good | Excellent |
| Weldability | Excellent | Good |
| Cost | Lower | Higher |
| Applications | Chemical tanks, utensils | Aerospace, automotive parts |
AlSi10 Powder
AlSi10 Powder
| Product | AlSi10 Powder |
| CAS No. | N/A |
| Appearance | Gray-Silver 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 | Al90Si10 |
| Density | 2.67g/cm3 |
| Molecular Weight | N/A |
| Product Codes | NCZ-DCY-190/25 |
AlSi10 Description:
AlSi10 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 pricingALSi10 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. AlSi10 Powder AlSi10 is an aluminum alloy powder containing 10% silicon and remainder aluminum. It offers an excellent combination of strength, low density, thermal properties, corrosion resistance and weldability. AlSi10 Powder Composition| Element | Composition |
| Aluminum (Al) | Balance |
| Silicon (Si) | 9-11% |
| Property | Value |
| Density | 2.7 g/cm3 |
| Melting Point | ~600°C |
| Thermal Conductivity | 150-180 W/m-K |
| Electrical Conductivity | 35-40% IACS |
| Coefficient of Thermal Expansion | 21-23 x 10<sup>-6</sup> /°C |
| Modulus of Elasticity | 80-85 GPa |
| Tensile Strength | 240-300 MPa |
| Elongation | 1-5% |
| Hardness | 80-90 Brinell |
| Corrosion Resistance | Excellent |
| Applications | Benefits |
| Aerospace components | Low density combined with high strength. |
| Automotive parts | Weight reduction without compromising mechanical performance. |
| Electronic housings | Thermal management for heat dissipation combined with low weight. |
| Medical implants | Biocompatible, non-toxic, corrosion resistant. |
| Thermal management | High thermal conductivity to dissipate heat. |
| Parameter | Options |
| Particle size | 5-150 microns |
| Particle shape | Spherical, irregular |
| Apparent density | Up to 2.7 g/cm3 |
| Flow rate | Up to 25 s/50g |
| Purity | Up to 99.7% |
| Alloy variants | AlSi12, AlSi5 |
| Method | Benefits |
| Additive manufacturing | Excellent geometric freedom for complex shapes. |
| Metal injection molding | High precision net shape capability. |
| Pressing and sintering | Economical for high volume simpler geometries. |
| Extrusion | Continuous production of rods and tubes. |
| Isostatic pressing | Achieves full density and improves properties. |
| Heat Treatment | Details | Purpose |
| Solutionizing | 530-550°C, quench | Dissolve soluble phases |
| Artificial Aging | 150-180°C, 5-10 hrs | Precipitation hardening |
| Annealing | 350°C, slow cooling | Restores ductility |
| Alloy | AlSi10 | AlSi12 | Al6061 | Al7075 |
| Strength | High | Highest | Medium | Very High |
| Weldability | Excellent | Poor | Good | Poor |
| Corrosion Resistance | Excellent | Excellent | Excellent | Good |
| Thermal Conductivity | High | Medium | Medium | Low |
| Density | Low | Low | Low | Low |
| Cost | Low | High | Medium | High |
| 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 |
| Parameter | Method | Specification |
| Chemical composition | OES, XRF, wet chemistry | Conformance to Al, Si, Mg content |
| Particle size distribution | Laser diffraction, sieving | D10, D50, D90 within range |
| Powder morphology | SEM imaging | Spherical shape and flowability |
| Apparent density | Hall flowmeter test | Minimum specified density |
| Flow rate | Hall flow meter test | Maximum flow seconds |
| Impurity levels | ICP or LECO analysis | Low oxygen, moisture content |
- What is AlSi10 alloy used for?
- AlSi10 is widely used in aerospace, automotive, and electronics applications where low weight and high strength are critical such as engine mounts, pistons, housings, heat sinks.
- Does AlSi10 require heat treatment?
- Yes, solution heat treatment followed by aging can significantly enhance the tensile strength by precipitating alloying elements like silicon.
- What methods can consolidate AlSi10 powder?
- AlSi10 powder can be consolidated to full density using additive manufacturing, metal injection molding, extrusion, and powder compact forging.
- Is AlSi10 weldable?
- Yes, AlSi10 has excellent weldability owing to the silicon alloying addition which improves fluidity in the molten state. This allows easy fusion welding.
- Is AlSi10 powder safe to handle?
- Like any fine metal powder, standard safety precautions should be taken during storage, handling and processing of AlSi10 powder to minimize health and safety risks.
AlSi50 Powder
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 pricingAlSi50 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% |
| 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 |
| 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. |
| 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 |
| 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. |
| 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 |
| 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 |
| 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 |
| 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 |
- What is AlSi50 used for?
- AlSi50 is ideal for applications like automotive components, aerospace parts, and electronic substrates where low mass, dimensional stability, and high fluidity are critical.
- Does AlSi50 require heat treatment?
- Optional heat treatment including solutionizing and aging can be done to enhance strength by precipitating silicon particles in the microstructure.
- What methods can consolidate AlSi50 powder?
- AlSi50 powder can be consolidated to full density using metal injection molding, casting, additive manufacturing via SLM/EBM, extrusion, and sintering.
- Is AlSi50 readily weldable?
- AlSi50 has relatively poor weldability owing to high silicon content. Special filler material and techniques are required for welding this alloy.
- Is AlSi50 powder safe to handle?
- Like any fine metal powder, standard safety precautions must be taken when handling AlSi50 powder to minimize health and safety risks.
AlSi7Mg Powder
AlSi7Mg Powder
| Product | AlSi7Mg Powder |
| CAS No. | N/A |
| 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 | Al-7Si-0.3Mg |
| Density | 2.65-2.68g/cm3 |
| Molecular Weight | N/A |
| Product Codes | NCZ-DCY-195/25 |
AlSi7Mg Description:
AlSi7Mg 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 pricingAlSi7Mg 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. AlSi7Mg powder AlSi7Mg powder is an aluminum alloy powder that primarily consists of aluminum (Al), silicon (Si), and magnesium (Mg). The “7” in its name signifies the percentage of silicon, while “Mg” represents the magnesium content. This powder exhibits excellent strength, low density, and impressive thermal properties, making it a preferred choice in multiple industries. Overview of AlSi7Mg Powder AlSi7Mg or A357 alloy is a versatile foundry alloy that possesses properties between pure aluminum and high-silicon hypereutectic alloys. The silicon additions improve castability and enhance mechanical properties while magnesium improves strength. Key characteristics of AlSi7Mg powder include: Good strength and hardness Excellent fluidity and castability Good machinability and polishability High thermal conductivity Good corrosion resistance Low coefficient of thermal expansion Available in range of particle sizes AlSi7Mg powder is used for producing automotive components, hydraulic parts, and other precision castings needing balanced properties. Chemical Composition of AlSi7Mg Powder| Element | Weight % |
| Aluminum (Al) | Balance |
| Silicon (Si) | 6-8% |
| Magnesium (Mg) | 0.4-0.8% |
| Iron (Fe) | 0.15-0.5% |
| Manganese (Mn) | 0.1% max |
| Copper (Cu) | 0.1% max |
| Zinc (Zn) | 0.1% max |
| Titanium (Ti) | 0.25% max |
| Property | Value |
| Density | 2.68 g/cm3 |
| Melting Point | ~600°C |
| Thermal Conductivity | 130-160 W/mK |
| Electrical Resistivity | 3-5 μΩ.cm |
| Young’s Modulus | 70-80 GPa |
| Poisson’s Ratio | 0.33 |
| Tensile Strength | 250-300 MPa |
| Yield Strength | 140-180 MPa |
| Elongation | 4-8% |
| Hardness | 80-100 Brinell |
| Parameter | AlSi7Mg | AlSi10Mg |
| Silicon content | 6-8% | 9-11% |
| Strength | Lower | Higher |
| Castability | Comparable | Comparable |
| Corrosion resistance | Good | Excellent |
| Cost | Lower | Higher |
| Applications | Castings, MIM | Aerospace, AM parts |
| Availability | Readily available | Moderate |
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