ZM3DPowder
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High-purity magnesium alloy powder (Magnesium Alloy Powder), produced by vacuum induction melting gas atomization process, has excellent sphericity and ultra-low oxygen content, is the core raw material for aerospace and 3D printing lightweight components, and supports the whole order purchase.
≥ 99.9%
Purity:
15-53μm
Particle size:
≤ 200ppm
Oxygen content:
the spherical rate is ≥ 95%, and the fluidity measured by Hall flow meter is less than 25s/50g, which ensures uniform and dense in the 3D printing powder spreading process and reduces the internal pore defects of the components.
Through the whole process of vacuum atomization and inert gas protection encapsulation, the oxygen content is strictly controlled within 200ppm, significantly improving the mechanical strength and oxidation resistance after sintering.
Using precision vibration screening technology, D50 deviation is controlled within ± 2μm, which meets the stringent requirements of different additive manufacturing processes such as SLM and EBM for powder grading.
the product density is only about 1.74 g/cm, 33% lighter than aluminum alloy, which can help end products to achieve significant weight reduction and greatly improve fuel efficiency in aviation and racing fields.
high-precision alloying elements (such as Al, Zn, Mn) are added in the melting stage, and the composition segregation rate is less than 0.5, ensuring that the performance of each batch of powder is highly consistent when purchasing in large quantities.
the tap density reaches more than 1.0 g/cm, which can reduce the shrinkage rate and control the dimensional tolerance of the finished product within ± 0.05mm in the pressing or hot isostatic pressing process.
| Parameter item | Typical Value | Testing Standard |
| Appearance | silver-gray spherical powder | Visual Inspection |
| Purity | Mg ≥ 99.9% | ICP-OES |
| Average particle size (D50) | 15μm, 30μm, 45μm (customizable) | Laser Diffraction (ISO 13320) |
| Apparent Density | 0.6 – 0.9 g/cm³ | ASTM B212 |
| Tap density | 0.9 – 1.2 g/cm³ | ASTM B527 |
| Oxygen Content | ≤ 200 ppm | ONH Analyzer |
| Moisture content | ≤ 0.05% | Karl Fischer Titration |
| Sphericity | ≥ 95% | SEM Analysis |
suitable for manufacturing lightweight parts such as satellite brackets and drone bodies, reducing launch costs and increasing load capacity through the use of magnesium alloy powder.
used to develop high-performance engine cylinder heads, steering wheel frames, etc., using the high specific strength characteristics of magnesium alloys to help new energy vehicles achieve lightweight endurance breakthroughs.
Magnesium alloy has good biodegradability, suitable for the production of orthopedic implants, vascular stents, etc., to avoid secondary surgery.
specially optimized for SLM (selective laser melting) process, providing magnesium alloy powder consumables with high fluidity and no hollow powder to ensure the printing success rate.
This product is based on high purity electrolytic magnesium ingot (Purity >99.9%), according to the specific brand (such as AZ91D, ZK61) accurately add aviation grade aluminum, zinc, zirconium and other alloying elements. The raw material is melted in a vacuum induction furnace to ensure that no impurities are introduced, and then crushed into micron-sized spherical particles by high-pressure argon atomization.
In the original unopened and argon-filled packaging, the shelf life is usually 6-12 months. It is recommended to use it within 48 hours after opening.
Our powders are optimized for SLM (Selective Laser Melting) and EBM (Electron Beam Melting) processes, as well as for laser cladding .
Each batch of magnesium alloy powder is accompanied by a complete COA (Certificate of Quality), including chemical composition analysis and particle size distribution curve, to ensure that the batch-to-batch deviation is minimal.
The product belongs to the 4.3 category of wet flammable solid, we strictly in accordance with the UN3094 international standard for packaging, the use of argon filled aluminum bottles or vacuum iron barrels and wooden box protection.
You can. We offer custom screening services ranging from 10μm to 250μm to match your specific pressing or spraying process.
Spherical magnesium alloy powder has better fluidity and higher density of printed parts; irregular powder is usually used in cold pressing or chemical industry, with lower cost but poor fluidity.
High-purity magnesium alloy powder (Magnesium Alloy Powder), produced by vacuum induction melting gas atomization process, has excellent sphericity and ultra-low oxygen content, is the core raw material for aerospace and 3D printing lightweight components, and supports the whole order purchase.
Purity:
≥ 99.9%
Particle size:
15-53μm
Oxygen content:
≤ 200ppm
the spherical rate is ≥ 95%, and the fluidity measured by Hall flow meter is less than 25s/50g, which ensures uniform and dense in the 3D printing powder spreading process and reduces the internal pore defects of the components.
Through the whole process of vacuum atomization and inert gas protection encapsulation, the oxygen content is strictly controlled within 200ppm, significantly improving the mechanical strength and oxidation resistance after sintering.
Using precision vibration screening technology, D50 deviation is controlled within ± 2μm, which meets the stringent requirements of different additive manufacturing processes such as SLM and EBM for powder grading.
the product density is only about 1.74 g/cm, 33% lighter than aluminum alloy, which can help end products to achieve significant weight reduction and greatly improve fuel efficiency in aviation and racing fields.
high-precision alloying elements (such as Al, Zn, Mn) are added in the melting stage, and the composition segregation rate is less than 0.5, ensuring that the performance of each batch of powder is highly consistent when purchasing in large quantities.
the tap density reaches more than 1.0 g/cm, which can reduce the shrinkage rate and control the dimensional tolerance of the finished product within ± 0.05mm in the pressing or hot isostatic pressing process.
| Parameter item | Typical Value | Testing Standard |
| Appearance | silver-gray spherical powder | Visual Inspection |
| Purity | Mg ≥ 99.9% | ICP-OES |
| Average particle size (D50) | 15μm, 30μm, 45μm (customizable) | Laser Diffraction (ISO 13320) |
| Apparent Density | 0.6 – 0.9 g/cm³ | ASTM B212 |
| Tap density | 0.9 – 1.2 g/cm³ | ASTM B527 |
| Oxygen Content | ≤ 200 ppm | ONH Analyzer |
| Moisture content | ≤ 0.05% | Karl Fischer Titration |
| Sphericity | ≥ 95% | SEM Analysis |
suitable for manufacturing lightweight parts such as satellite brackets and drone bodies, reducing launch costs and increasing load capacity through the use of magnesium alloy powder.
used to develop high-performance engine cylinder heads, steering wheel frames, etc., using the high specific strength characteristics of magnesium alloys to help new energy vehicles achieve lightweight endurance breakthroughs.
Magnesium0000000000 alloy has good biodegradability, suitable for the production of orthopedic implants, vascular stents, etc., to avoid secondary surgery.
specially optimized for SLM (selective laser melting) process, providing magnesium alloy powder consumables with high fluidity and no hollow powder to ensure the printing success rate.
This product is based on high purity electrolytic magnesium ingot (Purity >99.9%), according to the specific brand (such as AZ91D, ZK61) accurately add aviation grade aluminum, zinc, zirconium and other alloying elements. The raw material is melted in a vacuum induction furnace to ensure that no impurities are introduced, and then crushed into micron-sized spherical particles by high-pressure argon atomization.
In the original unopened and argon-filled packaging, the shelf life is usually 6-12 months. It is recommended to use it within 48 hours after opening.
Our powders are optimized for SLM (Selective Laser Melting) and EBM (Electron Beam Melting) processes, as well as for laser cladding .
Each batch of magnesium alloy powder is accompanied by a complete COA (Certificate of Quality), including chemical composition analysis and particle size distribution curve, to ensure that the batch-to-batch deviation is minimal.
The product belongs to the 4.3 category of wet flammable solid, we strictly in accordance with the UN3094 international standard for packaging, the use of argon filled aluminum bottles or vacuum iron barrels and wooden box protection.
You can. We offer custom screening services ranging from 10μm to 250μm to match your specific pressing or spraying process.
Spherical magnesium alloy powder has better fluidity and higher density of printed parts; irregular powder is usually used in cold pressing or chemical industry, with lower cost but poor fluidity.
