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Currently,
3D printing metal powder
materials include stainless steel, die steel, nickel alloys, titanium alloys, cobalt-chromium alloys, aluminum alloys and bronze alloys.
Iron-based alloys are the most commonly used metal material in engineering technology. They are most commonly used to create complex structures, such 3D-printed stainless steel. This technology is more durable than traditional casting or forging, and it can withstand high temperatures and wear well. It has excellent dimensional accuracy, material utilization, and chemical resistance. It is extensively used in aerospace and machine manufacturing as well as shipbuilding, automotive, and other industries.
Titanium alloy’s strength and toughness are combined with corrosion resistance and biocompatibility making it ideal to be used in high-performance aerospace and automotive engineering applications. It is also used for the manufacture of biomedical implant, which are high-modulus, low-modulus and resistant to fatigue.
Cobalt and chrome alloys are often used in surgical implant applications such as alloy knee joints and hip joint, alloy artificial joints and alloy knee joints.
Aluminum alloy is one of the most popular non-ferrous metals structural materials in industry. It is low in density and has a high specific strength. Additionally, it is similar to or even better than high quality steel. 3D printing of aluminum alloys has been shown to produce parts with dense structures and mechanical properties comparable or even better than castings. They can achieve a 22% reduction in quality, while the cost of traditional process parts can be cut by 30%.
Copper alloys exhibit excellent electrical and thermal conductivity. The excellent thermal conductivity of copper in thermal management applications allows for design freedom and the ability to produce intricate internal structures as well as conformal cooling channels.
You can divide the metal powder preparation methods into electrolysis, reduction, grinding and atomization. depending on the preparation method. The two most common powder-making methods in China at the moment are the argon and plasma rotating electrode.
Tech Co., Ltd. () is a professional 3D printing powder Over 12 years of chemical product development and research experience. We accept credit cards, T/T and Paypal payments. We will ship goods overseas via FedEx, DHL and by air or sea to our customers.
You can find high-quality 3D printing powder here Get in touch Send an inquiry
Iron-based alloys are the most commonly used metal material in engineering technology. They are most commonly used to create complex structures, such 3D-printed stainless steel. This technology is more durable than traditional casting or forging, and it can withstand high temperatures and wear well. It has excellent dimensional accuracy, material utilization, and chemical resistance. It is extensively used in aerospace and machine manufacturing as well as shipbuilding, automotive, and other industries.
Titanium alloy’s strength and toughness are combined with corrosion resistance and biocompatibility making it ideal to be used in high-performance aerospace and automotive engineering applications. It is also used for the manufacture of biomedical implant, which are high-modulus, low-modulus and resistant to fatigue.
Cobalt and chrome alloys are often used in surgical implant applications such as alloy knee joints and hip joint, alloy artificial joints and alloy knee joints.
Aluminum alloy is one of the most popular non-ferrous metals structural materials in industry. It is low in density and has a high specific strength. Additionally, it is similar to or even better than high quality steel. 3D printing of aluminum alloys has been shown to produce parts with dense structures and mechanical properties comparable or even better than castings. They can achieve a 22% reduction in quality, while the cost of traditional process parts can be cut by 30%.
Copper alloys exhibit excellent electrical and thermal conductivity. The excellent thermal conductivity of copper in thermal management applications allows for design freedom and the ability to produce intricate internal structures as well as conformal cooling channels.
You can divide the metal powder preparation methods into electrolysis, reduction, grinding and atomization. depending on the preparation method. The two most common powder-making methods in China at the moment are the argon and plasma rotating electrode.
Tech Co., Ltd. () is a professional 3D printing powder Over 12 years of chemical product development and research experience. We accept credit cards, T/T and Paypal payments. We will ship goods overseas via FedEx, DHL and by air or sea to our customers.
You can find high-quality 3D printing powder here Get in touch Send an inquiry