BJHB Advanced Materials Technology Group focuses on the R&D and production of high-end metal 3D printing materials and high-performance metal matrix composite materials. After years of technological innovation and development, the company has gradually formed three major business segments: metal 3D printing, metal matrix composite materials and spherical metal powder materials.
Metal 3D printing powder materials
Since entering the metal 3D printing market in 2015, BJHB has always been characterized by aluminum alloy 3D printing materials, focusing on aluminum, and is committed to developing into an internationally advanced and domestic leading aluminum alloy 3D printing material manufacturer.
As a professional aluminum alloy 3D printing material supplier, BJHB, based on the self-developed vacuum induction melting gas atomization technology (Vacuum Induction-melting Gas Atomization, VIGA), prepares aluminum alloy 3D printing powder materials with high sphericity, The remarkable advantages of high purity, low oxygen content, concentrated particle size, good fluidity, and high loose packing density have been recognized and trusted by users in the metal 3D printing industry.
Spherical metal powder material
The company independently develops and produces aluminum alloy, titanium alloy, high temperature alloy, stainless steel and other metal powders, which can provide customers with high-quality spherical metal powders, suitable for metal 3D printing, powder metallurgy, injection molding, laser cladding/repair, and surface thermal spraying And other processes.
Aluminum matrix composite materials and products
Silicon carbide particle-reinforced aluminum matrix composite material is a metal-based composite material with metal aluminum as the matrix and silicon carbide particles as the reinforcing phase. It combines the high hardness and wear resistance of ceramics and the good plastic toughness and toughness of the matrix aluminum alloy. It is a lightweight and high-strength material that can replace high-performance alloys with its advantages in thermal and electrical conductivity. Silicon carbide particle reinforced aluminum matrix composites are used in aerospace structural parts, optical precision instruments, and packaging for their light weight, high specific stiffness, high specific strength, high thermal conductivity, low thermal expansion coefficient, good dimensional stability and wear resistance. Fields such as heat dissipation have broad application prospects.