Xundake procures a variety of quality machinery parts through an extended network of suppliers. Contact us to know more about the business opportunities in China.
Our exclusive manufacturer client is producing powder metals for various industrial applications most notably 3D printers and augmented manufacturing. The exceptional product portfolio is tested and approved by leading corporate buyers in Turkey and now we are going global. Our partner excells the highest standards during production and achieves the best quality at water atomization and VIGA (Vacuum Induction Gas Atomization) techniques both. Some of the final products for your requirements are as follows: Copper (Cu), bronze (85/15, 90/10), stainless powders (304, 316L), tin (Sn), aluminum (Al), zinc (Zn), Al12Si / AlSi10Mg. Contact us for more details.
Xundake procures a variety of quality machinery parts through an extended network of suppliers. Contact us to know more about the business opportunities in China.
metal powders suitable for AM are the spherical geometry of the particles resulting from the gas atomisation and a particle size distribution according to the layer thickness, usually between 10-50 µm.
It is metal powder.
Metals powder
* AVAILABLE MATERIALS: - Magnesium & Magnesium Alloys - Aluminium & Aluminium Alloys - Titanium, Tungsten, Molybdenum, Tantalum - Nickel - Tin - Rhenium - Cobalt, Boron, Chromium - Copper - Stainless Steel - Other customized metal alloys.
Powder metallurgy is a manufacturing process where various powder metals such as stainless steel, brass, copper, iron and bronze are compressed and then sintered (heated) to increase adhesion between particles. Material blending allows for a certain amount of customization of material properties to produce desired characteristics suitable for a particular application. The part is formed by compressing the powder metal, or blended metal powders, in accurately formed dies and punches in special types of hydraulic presses. The compressed pieces are then sintered in an atmosphere controlled furnace at high temperatures, causing the metal powder particles to be metallurgically bonded together. This remarkably greenand environmentally friendly process uses 99% of the material thats in the mold, producing harmless bi-products of nitrogen and hydrogen. Optional operations include sizing or coining. Supplementary heat treatments may also be employed to increase material strength. Other optional finishing steps include milling & machining, grinding, drilling & tapping, reaming & other hole sizing, plating, and cu, plastic or oil impregnating. The result is high density parts comparable to wrought products of the sam e composition and surpassing plastic and die cast material properties. Lower density will, of course, result in lower physical properties; however, these parts can be used in filter or air flow applications. -