Tungsten Carbide Uses & Properties Tungsten carbide is a compound composed of tungsten and carbon with a molecular formula of WC and a molecular weight of 195.85. Due to its excellent physical and chemical properties, tungsten carbide has been widely used in the industry and our everyday life. In this article, we will take a […]
Tags: Advanced Refractory Metals, ARM, Metal with the Highest Melting Point, powder metallurgy, Properties of Tungsten Carbide, Refractory Metals, tungsten carbide, Tungsten Carbide Chemical Properties, Tungsten Carbide Physical Properties, tungsten carbide powder, Tungsten Carbide Properties, Tungsten Carbide Uses, Uses of Tungsten Carbide, WC
Molybdenum Alloys 101 Molybdenum alloy is an alloy composed of molybdenum as a matrix and other elements added. Due to its excellent properties, molybdenum alloy has been widely used in industry and our everyday life. If you are looking for information about molybdenum alloys, then you’ve come to the right place. In this article, we will focus […]
Tags: A Brief Introduction to Molybdenum Alloys, Advanced Refractory Metals, ARM, Mo-Hf-C series alloys, Mo-Ti-Zr series alloys, Mo-W series and Mo-Re series alloys, Molybdenum, molybdenum alloy, Molybdenum Alloy Series, Molybdenum Alloys, Molybdenum Alloys 101, molybdenum sheets, powder metallurgy, Refractory Metals, The Applications of Molybdenum and Molybdenum Alloys, The History of Molybdenum Alloys, Titanium-Zirconium-Molybdenum Alloy, TZC (Mo-1.25 Ti-0.15 Zr-0.15C) alloy
Iridium Uses & Properties Iridium belongs to the transition element of Group VIII of the periodic table. Iridium is a rare precious metal with the element symbol Ir, atomic number 77, and an atomic weight of 192.2. The content of iridium in the earth’s crust is one ten-millionth, and it is often dispersed together with platinum group elements […]
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Powder Metallurgy Process Overview Powder metallurgy is a process of preparing metal powder or using metal powder as raw material, through forming, sintering, and necessary subsequent treatment, to produce various types of products. In this article, let’s take a closer look at the powder metallurgy process. The basic processes of powder metallurgy are: 1. Preparation of raw material powder […]
Tags: Advanced Refractory Metals, Molybdenum Powder, powder metallurgy, Powder Metallurgy Process, Preparation Methods of Metal Powder, Tantalum Powder, Tungsten Powder
Preparation Methods of Metal Powder Powder metallurgy is a process for preparing metal powders and using metal (or metal and non-metal mixture) powder as raw materials to form parts and products by molding and sintering. As the main raw material of the industry, metal powder is widely used in the fields of machinery, metallurgy, chemical […]
Tags: Advanced Refractory Metals, ARM, Atomization, Ball Milling, Chemical Replacement, Electrolysis, Grinding, Hydroxyl, Mechanical Physics, Metal Powder, Molybdenum, Physical-chemical Method, powder metallurgy, Preparation Methods of Metal Powder, Reduction, Refractory Metals, Tungsten
Application of Tungsten And Tungsten Alloys Tungsten, which has an atomic number of 74 in the periodic table, is a VIB group metal. It has a density of 19.35 g/cm3 that is close to gold, with a melting point of 3,422 ℃ and a boiling point of 5,927 ℃. In this article, we’ll take a look […]
Tags: Advanced Refractory Metals, Application Of Tungsten, Application Of Tungsten Alloys, Cemented Carbide, Doped Tungsten Alloy, Heat-Resisting Alloy, Metal with High Melting Point, powder metallurgy, Refractory Metals, Tungsten, tungsten alloy, tungsten carbide, Tungsten Copper Alloy, Tungsten Heavy Alloy, tungsten rod, tungsten steel, tungsten wire
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