Tungsten rod is a rod-shaped material made of tungsten that is commonly used in a variety of applications, including industry, manufacturing, and scientific research. Here is some brief introduction to tungsten rods:
Properties of Tungsten: Tungsten is a chemical element with an atomic number of 74 and a very high melting point (approximately 3422 degrees Celsius or 6192 degrees Fahrenheit), which makes tungsten an ideal high-temperature material. It also has excellent mechanical strength and corrosion resistance.
Application fields: Tungsten rods are widely used in many fields. Some of these applications include:
Electronic industry: used in electronic devices, vacuum tubes, electrodes, tungsten filaments, electron beam melting and electron beam welding, etc.
Glass and ceramic industry: used in heating elements, glass melting, ceramic sintering, etc.
Medical field: used in radiotherapy equipment, radiation shielding materials, etc.
Manufacturing industry: used for cutting tools, drill bits, vibration welding, etc.
Research laboratories: used in laboratory equipment, high-temperature furnaces and vacuum chambers, etc.
Different types: Tungsten rods can be divided into pure tungsten rods and alloy tungsten rods. Alloy tungsten rods include tungsten alloys, which are usually alloyed with other elements (such as copper, nickel, iron, etc.) to improve their mechanical properties and thermal conductivity.
Preparation and Processing: Preparing tungsten rods typically involves a powder metallurgy process in which tungsten powder is pressed and sintered into a solid rod-shaped material. These tungsten rods can be further processed and customized to suit specific application needs.
High-temperature applications: Due to its excellent high-temperature properties, tungsten rods are often used in high-temperature environments, such as high-temperature furnaces, vacuum melting, and other high-temperature processing processes.
Overall, tungsten rod is an important material that is widely used in many fields due to its excellent high-temperature properties and mechanical properties.
Size:
Diameter(mm) | Length(mm) |
Φ1.0-20.0 | >2000 |
Φ20.0-30.0 | >1500 |
Φ30.0-70.0 | >1000 |
Φ70.0-90.0 | >800 |