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Titanium alloys are widely used to manufacture medical implants, such as artificial joints and dental implants, due to their good biocompatbility, high strength, and lightweight properties.
Titanium alloy is widely applied in various fields, including the manufacture of medial implants, aerospace parts, high-performance engine compoenents, and parts for the oil and the natural gas industry,
Titanium alloy is a metal with lightweight, high strength and corrosion resistant. Its low density and similarity to bone issue make it widely applied in the medical implants, aerospace, and high-performance mechanical components.
This depends on the specific part and application. Some titanium alloy parts can be repaired, but heat treatment and compatibility need to be considered.
Stainless steel 3D printing is suitable for producing high-strength, complex structural parts, especially in the automotive, aerospace, and medical fields.
Surface treatment can include polishing, sandblasting, pickling, etc, to achieve higher suface quality and appearance.
The choice of stainless steel should be based on the applied enviornment. InstaVoxel currently offers 316L stainless steel, which has high corrosion resistance.
InstaVoxel currently only offers the common 316L grade.
Stainless steel a metal with good corrosion resistant, heat resistant, and mechanical properties. This makes it useful in various applications, especially for products that require high corrosion resistance.
Aluminum alloys generally have outstanding corrosion resistance and fatigue resistance, thus they perform well in long-term use.
Aluminum alloy 3D printing is suitable for prototype production and can achieve complex geometries and lightweight designs, helping product testing and feasibility vertification.
AlSi10Mg is better suited for 3D printing technologies, especially in applications that require high precision and strength. Its excellent corrosion resistance and dimensional stability make it an ideal choice for metal parts produced by 3D printing. On the other hand, aluminum 6061 is more appropriate for traditional manufacturing processes, offering high machinability, ductility, and strength. Particularly after heat treatment, aluminum 6061 exhibits outstanding mechanical properties. Both materials have distinct advantages in their respective application areas, and the choice between them depends on the specific requirements of the application and the manufacturing technique used.
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