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Nylon PA12+40%GB is commonly used in applications that require high rigidity and dimensional stability, such as automotive parts, industrial components, and structural elements. It is particularly well-suited for components that must withstand high mechanical loads and thermal stresses.

While Nylon PA12+40%GB offers enhanced strength and stability, it is also heavier and less flexible than pure PA12. Additionally, the surface finish of PA12+40%GB can be slightly rougher due to the presence of glass beads. These factors should be considered when selecting the appropriate material for your application.

PA12+40%GB is a composite material made from polyamide 12 (PA12) that is reinforced with 40% glass beads (GB). This combination enhances the mechanical strength, stiffness, and dimensional stability of the material compared to pure PA12. The glass beads provide additional rigidity and reduce shrinkage and warping, making PA12+40%GB ideal for applications requiring high performance and precision.

Tool steel has high hardness, wear resistance, and corrosion resistance, meeting diverse application needs.

Tool steel parts may be affected by thermal stress, so the thermal expansion and contraction of the material should be taken into account during design and processing.

Tool steel 3D printing offers greater design freedom, the ability to create complex structure and customized shapes, and reduces material waste.

Yes, tool steel 3D printing typically achieves excellent harness and wear resistance, making it suitable for wear-resistant tools and parts.

Tool steel 3D printing is mainly used in the manufacture of cutting tools, molds, stamping dies, and other high-wear, high-hardness tools. Successful cases include the automotive industry and mold manufacturing, etc.

Potential challenges for printing titanium alloy includes high reactivity, thermal stress, and deformation after heat treatment, etc. It is critical to control process parameters to overcome these challenges.

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.

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