Preparation of Rhenium Powder Preparation of rhenium powder refers to the metallurgical process of producing metal rhenium powder from rhenium compounds. The rhenium compounds commonly used in the production of rhenium powder are ammonium perrhenate, potassium perrhenate, rhenium(VII) oxide, and rhenium pentachloride. The commonly used methods for the preparation of rhenium powder include hydrogen reduction, electrolysis, and […]
Tags: Advanced Refractory Metals, ARM, Electrolysis, Halide Thermal Dissociation, Hydrogen Reduction, methods for the preparation of rhenium powder, Molybdenum, molybdenum wire, refractory metals & alloys, Rhenium Compounds, rhenium metal, rhenium powder, tantalum sheets, Tungsten, tungsten wire
Features & Applications of Tungsten Crucibles Tungsten crucible, as its name implies, is one of the products made of metal tungsten, which is widely used in today’s industrial production. But do you know what are the features & applications of tungsten crucibles? What process is used to manufacture tungsten crucibles? What are the advantages of […]
Tags: Advanced Refractory Metals, Applications of Tungsten Crucibles, ARM, Features of Tungsten Crucibles, Molybdenum, rhenium, tantalum, titanium, Tungsten, tungsten crucibles, What are the advantages of tungsten crucibles?, What processes are used to manufacture tungsten crucibles?, Zirconium
Refractory Metals & Alloys for Aerospace Refractory metals refer to metals with melting points above 2000°C. They include tungsten, molybdenum, tantalum, niobium, rhenium, and vanadium. The common characteristics of refractory metals and their alloys are high melting point, high strength at high temperatures, and good corrosion resistance to liquid metals. Their use temperature range is 1100~320℃, […]
Tags: Advanced Refractory Metals, ARM, Molybdenum, Molybdenum Alloys, Niobium, Niobium alloys, refractory alloys, Refractory Metals, refractory metals & alloys, rhenium, Rhenium Alloys, tantalum, tantalum alloys, Tungsten, Tungsten alloys, tungsten-copper composite material, Vanadium, vanadium alloys
Heat Treatment of Titanium Alloy Titanium alloy is favored by people for its excellent room temperature and high-temperature mechanical properties, outstanding corrosion resistance, and high strength. It has become an important structural material in the aviation and aerospace industries. The heat treatment of titanium alloy can significantly increase the strength of the alloy so that it can […]
Tags: Advanced Refractory Metals, ARM, Molybdenum, refractory alloys, Refractory Metals, rhenium, tantalum, titanium, titanium alloy, Tungsten, Zirconium
Low-cost Tungsten Carbide Production Method Developed By A Russian University Researchers at Tomsk Polytechnic University (TPU) in Russia have developed a method that can produce tungsten carbide and other superhard materials in a non-vacuum environment and can use waste carbide drill bits, tools, and other tungsten carbide waste materials as raw materials. It is more […]
Tags: Advanced Refractory Metals, ARM, boron carbide, refractory alloys, Refractory Materials, Refractory Metals, Silicon carbide, Titanium carbide, Tungsten, Tungsten alloys, tungsten carbide, Tungsten Carbide Production Method
3D Printing Is Used to Develop Refractory Metal Components for Nuclear Weapons 3D printing has always been favored by the military manufacturing and aerospace industries. Metal Technologies (MTI), a manufacturing service provider from Oregon, USA, won a contract from the US Navy. Under this contract, MTI will develop and demonstrate advanced aerospace additive manufacturing technology for the […]
Tags: 3D Printing, Advanced Refractory Metals, ARM, Molybdenum, Niobium, refractory alloys, Refractory Metal, Refractory Metal Components, refractory metal parts, rhenium, tantalum, titanium, Tungsten, Zirconium
Properties and Compounds of Rhenium Rhenium is a silvery-white rare metal with a high melting point. Its melting point ranks third among all elements, second only to tungsten and tantalum. Because metal rhenium is hard, wear-resistant, corrosion-resistant, and stable in the air, it is widely used in aerospace, electronics, petrochemical, and other fields. In this article, let’s […]
Tags: Advanced Refractory Metals, ARM, Chemical Properties of Rhenium, Compounds of Rhenium, metal with a high melting point, Physical Properties of Rhenium, Properties and Compounds of Rhenium, Properties of Rhenium, Re2O7, ReB2, ReCl3, ReCl5, ReCl6, ReF4, ReF5, ReF6, ReF7, ReO2, ReO3, rhenium, Rhenium Compounds, rhenium metal, rhenium oxide, tantalum, Tungsten
TZM Alloy Applications, Properties & Preparation Methods TZM alloy (Titanium-Zirconium-Molybdenum Alloy) is a high-temperature alloy widely used at present. Because of its high melting point, high strength, high elastic modulus, small linear expansion coefficient, low vapor pressure, good electrical and thermal conductivity, strong corrosion resistance, and high-temperature mechanical properties, it is widely used in military, aerospace, […]
Tags: Advanced Refractory Metals, ARM, high-temperature alloy, Molybdenum, powder metallurgy, powder metallurgy method, pure molybdenum, Refractory Metals, titanium, Titanium-Zirconium-Molybdenum Alloy, Tungsten, TZM Alloy, TZM Alloy Applications, TZM Alloy Preparation Methods, TZM Alloy Properties, Zirconium
Physical & Chemical Properties of Tungsten Tungsten is one of the important strategic resources. Due to its excellent physical and chemical properties, tungsten and its alloys are used to manufacture key armor-piercing components that attack various types of armored targets, gyro inertial components for satellites, and high-temperature anti-ablation components such as rockets’ combustion chambers, nozzles, […]
Tags: Advanced Refractory Metals, ARM, Chemical Properties of Tungsten, metal with a high melting point, Metal with the Highest Melting Point, Physical Properties of Tungsten, Properties of Tungsten, Property of Tungsten, Refractory Metals, The Applications of Tungsten, The Uses of Tungsten, Tungsten, tungsten carbide, Tungsten Properties
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
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