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Relying on our R&D team’s more than ten years of dedicated research on materials, Avimetal has developed a series of alloy powder materials for aerospace, digital healthcare, automotive manufacturing, consumer electronics, industrial molding and other applications. With high purity and sphericity, low oxygen content and excellent performance, our products are widely applied in selective laser melting (SLM), laser solid forming (LSF), laser cladding (LC), metal injection molding (MIM), hot isostatic pressing (HIP) and other manufacturing techniques.
Avimetal has a 15-year technological base of atomization used in superalloy powder production. We have thus made a breakthrough in world-leading powder production technology, such as Vacuum Induction Inert Gas Atomization (VIGA), Electrode Induction Gas Atomization (EIGA), Plasma Rotary Electrode Atomization (PREP), Plasma Atomization (PA), etc.,
which two technologies, VIGA and EIGA, are the first to realize domestication. The high-end powder materials dedicated for 3D printing developed by us, such as titanium alloy and superalloy, have been applied and industrialized in the national defense equipment.
▪ Vacuum/non-vacuum refining ensures the purity of alloy liquid and good alloying condition
▪ The fast solidified powder, with high sphericity, exists in supersaturated solid solution, its elements slightly segregated or non-segregated.
▪ With adjustable capacity, the furnace has a relatively low cost, suitable for research and mass production.
▪ Nickel Alloy, Cocr Alloy, Stainless Steel, Aluminum Alloy, Ferrous Alloy, etc.
Size Distribution: 0-150μm; Nickel Alloy Powder D50: 20-60μm
▪ Pollution-free: non-contact melting without crucible
▪ Minimal burning loss of constituent elements; flexible alloy bar size
▪ Flexible feeding capacity for both research and mass production
▪ Ti, Titanium Alloy, Ti-Al, Ni-Ti Shape Memory Alloy
Size Distribution: 0-150μm
▪ High yield of fine powder
▪ Low cost of gas
▪ Good quality stability of each batch for both scientific research and batch production
▪ Ti, Titanium Alloy, Nickel Alloy, Ni-Ti Shape Memory Alloy
Size Distribution: 0-150μm
▪ High-sphericity droplet atomization realized by centrifugal force mechanism
▪ Low production cost
▪ Flexible feeding capacity for both research and mass production
▪ Ti, Titanium Alloy, Nickel Alloy, Cocr Alloy, Ferrous Alloy, etc.
Size Distribution: 30-300μm
We have optimized the content of key elements and trace elements in superalloys , high-strength aluminum alloys and other materials, developed alloy material systems suitable for additive manufacturing, and established a material database of its composition, structure and performance.
We have developed a variety of advanced powder-making atomization technologies, mastered the core techniques such as ultra-high purity melting, supersonic atomization nozzle design, morphology control of powder, etc., achieved precise control of the chemical composition, purity and sphericity of powder.
Our Metal Powder Research & Application Center, equipped with more than 20 sets of various metal 3D printing and remanufacturing equipment, is able to carry out powder forming testing, so as to ensure stable and reliable product quality of each delivery batch.
Our testing center in line with international standards, equipped with more than 100 sets of testing equipment used in composition analysis, powder comprehensive performance, high-temperature tensile strength, high-temperature endurance, hardness testing, metallographic analysis, etc., provides a supporting platform for research and development of new materials and product quality testing.