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The tungsten alloy can is designed for safe transportation of bottles containing radioactive drugs. There is a slot inside the tungsten alloy tank, where the container is installed and fixed during transportation inside the tank. The conical surface of the tungsten alloy tank container hole is sealed with rubber, and the bottom of the tungsten alloy tank container is cushioned with polymer.
Tungsten alloy cans are known for their high density, strength, and heat resistance, and can be used for radiation shielding, balancing weights (in aerospace, automotive, and sports fields), high-temperature molds (such as die-casting and forging), and defense applications
Feature | Details |
Size | Outer diameter: 92 x 130 mm The height from the cover to the bottom of the handle: not less than 32mm , not more than 33mm The height from the lid to the top of the handle: not less than 37mm , not more than 38mm Total weight: 14kg Shielding (tungsten): not less than 29mm , not more than 30mm |
Working temperature | -40+70 degrees Celsius |
Durability | Impact-resistant, corrosion-resistant, and designed for repeated use |
Main function
1. The high density of tungsten alloy cans makes them an ideal choice for storage and transportation, as they provide enormous mass in small volumes compared to lead.
2. Excellent strength and stiffness of tungsten alloy cans: providing durability and deformation resistance.
3. The high melting point and thermal stability of tungsten alloy cans enable them to withstand extreme temperatures without losing their physical properties.
4. Radiation shielding of tungsten alloy cans: The high atomic number of tungsten enables it to effectively absorb radiation.
5. Corrosion resistance of tungsten alloy cans: Tungsten alloys are usually resistant to corrosion and erosion.
Common applications
1. Tungsten alloy cans are used in aerospace: for balance weights in aircraft components such as rotor blades and control surfaces.
2. Tungsten alloy cans are used for medical devices: their non toxicity and radiation shielding ability make them suitable for preventing radiation such as X-rays.
Advantage
1. Tungsten alloy is safer than lead: Tungsten alloy is non-toxic and provides a safer alternative to lead in many applications.
2. Performance improvement of tungsten alloys: Their high density and strength can enhance the performance and durability of various components.
3. Tungsten alloy in additive manufacturing: The advancement of additive manufacturing processes allows for the creation of complex tungsten alloy components with intricate designs.
