How Does Tungsten Power the Aerospace Industry? Tungsten is the most heat-resistant metal, and it has the highest density and strength of refractory metals. Tungsten alloys with alloying elements have good wear resistance, corrosion resistance, electrical conductivity, and thermal conductivity. In this article, we will take a look at how tungsten power the aerospace industry. […]
Tags: Advanced Refractory Metals, ARM, high-density tungsten alloy, Refractory Metal, Refractory Metals, Tungsten, tungsten alloy, tungsten metal, Tungsten Nozzle, Tungsten Powder, tungsten wire, Tungsten-rhenium alloy, W-Cu Composite
What Are the Special Refractories Widely Used in Modern Industry? Special refractories mainly include high melting point oxides, high melting point non-oxides, and the derived composite compounds, cermet, high-temperature coating, high-temperature fiber, and reinforcing materials. Among them, non-oxides with a high melting point are usually called refractory compounds, which also include carbides, nitrides, borides, silicides, […]
Tags: Advanced Refractory Metals, alumina, ARM, BeO, Beryllium oxide, Calcium Oxide, Corundum, Corundum brick, Magnesia, Magnesium Oxide, non oxide refractories, Refractory Metals, Silicon Oxide, Special Refractories, Special Refractory, zirconia
What Is the Application Status of Refractory Metal Material? Refractory metal material mainly refers to tungsten, molybdenum, tantalum, niobium, rhenium, and vanadium, all of which are materials with a melting point above 2000 degrees Celsius. Refractory metal materials and their alloys have the characteristics of high melting point, high strength under a high-temperature environment, strong […]
Tags: Advanced Refractory Metals, ARM, materials with a high melting point, metals with a high melting point, Molybdenum, molybdenum alloy, Niobium, Niobium alloy, Refractory Material, Refractory Materials, Refractory Metal, Refractory Metal Materials, refractory metal products, Refractory Metals, rhenium, tantalum, tantalum alloy, Tungsten, tungsten alloy, Vanadium
How Is the New Technology Applied in Refractories? As the basic material in the field of high-temperature technology, refractory materials are widely used in steel, non-ferrous metals, glass, cement, ceramics, petrochemicals, machinery, boilers, light industry, electric power, military, and other fields. With the development of technology, the preparation technology of refractories is developing in the […]
Tags: Advanced Refractory Metals, Al2O3 nanopowder, Al2O3 powder, FGM, Functional Gradient Material, How Is the New Technology Applied in Refractories?, In Situ Synthesis, New Technology Applied in Refractories, NT (Nanotechnology), Refractory Materials, Self-propagating High-temperature Synthesis, SHS, SiC
Brief Analysis of Applications of the Zirconia Refractories With the rapid development of the iron & steel industry and the requirement of improving the performance of electronic components, zirconia refractories are more and more applied. Zirconia is a very stable refractory oxide, and the relevant research shows that the melting temperature of which is 2680 ℃. In this article, […]
Tags: Advanced Refractory Metals, Applications of the Zirconia Refractories, ARM, Molybdenum, Refractory Material, rhenium, tantalum, titanium, Tungsten, zirconia, Zirconia Metering Nozzle, Zirconia Refractories, zirconia refractory, Zirconia Setter Plate, zirconia special refractories, Zirconium
Refractory Metal Powders VS 3D Printing Technology 3D printing technology is also called additive manufacturing, and the metal devices produced by this technology are somewhat similar to the powder gold treatment technology we currently use, all of which are built on metal powder, and the difference is that the material powder is not bonded by […]
Tags: 3D Printing Technology, Advanced Refractory Metals, Chromium, Molybdenum, refractory metal powders, Refractory Metal Powders VS 3D Printing Technology, Refractory Metals, rhenium, titanium, Tungsten
What Are the Uses of Tantalum and Its Alloys? Tantalum is the third most refractory metal, with a melting point of 2980℃, only after tungsten and rhenium. Besides, tantalum also has other excellent properties like low vapor pressure, good cold workability, high chemical stability, strong resistance to liquid metal corrosion, and a large dielectric constant […]
Tags: Advanced Refractory Metals, and Electrical Industries, Electronic, Most Refractory Metal, Refractory Metal, rhenium, tantalum, tantalum alloy, tantalum crucible, tantalum sheet, Tungsten, Uses of Tantalum, Uses of Tantalum & Its Alloys in the Aerospace and Military Fields, Uses of Tantalum & Its Alloys in the Atomic Energy Industry, Uses of Tantalum & Its Alloys in the Field of Healthcare, Uses of Tantalum & Its Alloys in the Field of Metallurgy, Uses of Tantalum Alloys, Uses of Tantalum in the Chemical, Uses of Tantalum in the Chemical Industry, Uses of Tantalum in the Field of Capacitors, Uses of Tantalum in the Field of Cemented Carbide, Uses of Tantalum in the Field of Electronics, What Are the Uses of Tantalum Alloys?, What Are the Uses of Tantalum?
An Overview of Nickel-titanium Alloy Nickel-titanium alloy, also known as nitinol, is a binary alloy made up of nickel and titanium, these two elements are roughly equal in atomic percentage (Nitinol 55 and Nitinol 60 are very common). There are two different crystal structures in nickel-titanium alloy due to the change of temperature and mechanical […]
Tags: Advanced Refractory Metals, An Overview of Nickel-titanium Alloy, Nickel, Nickel titanium alloy, Nickel-titanium Alloys, nitinol, titanium
Why Can Beryllium Metal Be Applied For Missile? Beryllium metal is a material with a relatively special performance, some properties of which are irreplaceable by any other metal materials, especially nuclear properties and physical properties. Beryllium is mainly concentrated in the nuclear industry, the application scope of the weapon system, aerospace industry, X-ray instruments, electronic information […]
Tags: Advanced Refractory Metals, aluminum, aluminum alloy, ARM, beryllium, Beryllium Metal, Beryllium Metal Properties, magnesium, Magnesium alloy, The Unique Qualities Of The Beryllium Metal, titanium
The Discovery of Zirconium In this article, we will take a look at the discovery of zirconium. The naming of zirconium is based on zircon. As early as a few centuries ago, zircon has been used as jewelry. The Bible said that zircon is one of the 12 kinds of precious stones worn by the high […]
Tags: Advanced Refractory Metals, Discovery of Zirconium, Refractory Metals, The Discovery of Zirconium, Zirconium, Zirconium Powder
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