This blogging site provides professional knowledge of tungsten, molybdenum, tantalum, columbium to expand the markets for refractory metals. So if you want to know a bit more about the applications of refractory metals and related processed products, then please take a look through our blogs.
How Is Titanium Used in Automotive Lightweight? Titanium and titanium alloy has the characteristics of low density, excellent mechanical properties, good biocompatibility, corrosion resistance, high-temperature resistance, and good low-temperature toughness. At present, they have been widely used in automobile manufacturing. In this article, we will take a look at how is titanium used in automotive lightweight. The density of titanium […]
Tags: Advanced Refractory Metals, aluminum, application of titanium in automobiles, ARM, Automotive Lightweight, high cost of titanium, magnesium, Molybdenum, Refractory Metals, rhenium, tantalum, titanium, titanium alloy, titanium alloy materials, Tungsten, Zirconium
Types of High-Temperature Refractory Metal Materials in Laser Forming Refractory metal materials with a high melting point and special properties have been developed as high-tech materials. Due to the high melting point and high-temperature strength, the smelting process of these materials is very difficult, and most refractory alloys are manufactured by powder metallurgy. With the […]
Tags: Advanced Refractory Metals, ARM, High Temperature Refractory Metal Materials, High Temperature Refractory Metal Materials in Laser Forming, Molybdenum, Niobium-based Alloy, pure tungsten powder, Refractory Metal Materials, Refractory Metal Types, tantalum, Tantalum Powder, Tantalum Powders, tantalum rod, tantalum rods, Tungsten, Tungsten alloys, Tungsten Powder, Types of Refractory Metals
Rhenium Applications The previous article, Overview of Rhenium, introduces the discovery history of rhenium (Re), its physical and chemical properties, and magical rhenium effects. In this article, we will take a close look at the rhenium applications. People have tried their best and they only have about 50 tons of rhenium a year. What is rhenium used […]
Tags: molybdenum heating elements, rhenium, rhenium application, Rhenium Applications, rhenium in alloys, use of rhenium, What Is Rhenium Used For?
Applications of Molybdenum and Molybdenum Alloys in the Material Processing Industry Molybdenum and molybdenum alloys have good thermal conductivity, electrical conductivity, low thermal expansion coefficient, high-temperature strength, low vapor pressure, and wear resistance. As a result, they have become important materials for electronic and power equipment manufacturing, metal material processing, glass manufacturing, high-temperature furnace structural parts manufacturing, aerospace, […]
Tags: Advanced Refractory Metals, Applications Of Molybdenum, Applications Of Molybdenum Alloys, Applications of Molybdenum And Molybdenum Alloys, ARM, Molybdenum, Molybdenum Alloys, Molybdenum and Molybdenum Alloys, Molybdenum Powder, refractory alloys, Refractory Metals, Titanium-Zirconium-Molybdenum Alloy, TZM Alloy
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
7 Common Metal Materials & Typical Uses Hundreds of thousands of different types and grades of metals can be found in the world, each of which was developed for a specific application. You come into contact with dozens of metals every day. Here we have an interesting guide that will take you through some common […]
Tags: Advanced Refractory Metals, aluminum, ARM, Cast Iron, Chromium, Common Metal, Common Metal Material, Common Metal Materials, Common Metals, Copper, Magnesium alloy, Molybdenum, Refractory Metals, Stainless Steel, titanium, titanium fasteners, titanium metal, Tungsten
Why Is There No Gasoline without Rhenium? The previous article, Overview of the Refractory Metal Rhenium, introduces the discovery history of rhenium, its physical and chemical properties, and magical rhenium effects. People have tried their best and they only have about 50 tons of rhenium a year. What are they used for? Why is there […]
Tags: Advanced Refractory Metals, ARM, Gasoline Without Rhenium, No Gasoline Without Rhenium, Overview of the Refractory Metal Rhenium, rhenium, rhenium powder, rhenium rod, rhenium wire
Applications of Titanium Materials in the Medical Industry Titanium is one of the refractory metals that have varied uses in human life. Because of its unique properties such as high strength, low density, high heat resistance, and anti-corrosion, titanium materials find their way into many industries. It is a well-known fact that the first applications […]
Tags: Application Of Titanium, Application Of Titanium Material, Applications Of Titanium, Applications Of Titanium Materials, Applications Of Titanium Materials In Medical Industry, Medical Industry, Refractory Metal, Refractory Metals, titanium, titanium foil, Titanium Materials, titanium rod, titanium wire
Why Is Zirconium Used In Nuclear Reactors? Zirconium is a rare metal with amazing corrosion resistance, high melting point, high hardness, and strength. It is widely used in aerospace, military, nuclear reaction, and atomic energy fields. In the video below, there is an experiment that explains why zirconium used in nuclear reactors. Initially, zirconium was […]
Tags: Advanced Refractory Metals, application of zirconium alloy, application of zirconium alloys, ARM, Hafnium, Nuclear Reactors, Zirconium, Zirconium alloy, zirconium alloys, Zirconium Used In Nuclear Reactors
Applications of Tungsten in The Field of Alloys Tungsten is a chemical element with the chemical symbol W and atomic number 74. After Carbon, Tungsten has the highest melting point of all elements. Tungsten is among the heaviest metals found on Earth. It has excellent high-temperature mechanical properties, with the lowest expansion coefficient and highest […]
Tags: alloys of tungsten, Application Of Tungsten, Applications Of Tungsten, Applications Of Tungsten In The Field Of Alloys, Hot Strength And Wear-resistant Alloy, Tungsten, tungsten carbide, Tungsten Heavy Alloys, Tungsten Powder, tungsten steels, tungsten wire
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