There are several reasons behind using tungsten shielding radiation, the most important is its density i.e.: 18.89 g/cm3. The properties of tungsten like mechanical processing ease, strength, and high ductility, make tungsten a worthwhile option for several applications where other metals like lead are not viable either it is for maximizing weight or for reduction size. Tungsten alloy shielding is extremely customizable to precision components.

With the advancement of technologies, more and more radiation equipment involves in daily life. From the medical equipment to nuclear power, radiation has a significant influence on lives. These radiations have a harmful effect that needs to be shielded. So, to shield the radiation like gamma radiation, x-rays, alpha particles, etc. are necessary. Iron and lead are two traditional shielding materials, undoubtedly the high proportionality of tungsten alloy shielding is one of the best choices. The reason for selecting high-density tungsten shielding is that tungsten alloy has a great capacity of ray absorption, good corrosion resistance, and high density which is twice of lead.

High-density tungsten alloy shielding advantages:

The radiation shielding property is related to material density. The higher density of material means excellent ray absorption and great radiation shielding capacity. The absorption of ray and the ability of block of tungsten alloy is better than other traditional shieldings due to its higher density. High-density tungsten radiation shielding has a good shielding on gamma rays that reduces the shielding volume. The high-density tungsten alloy radiation shielding has good radiation shielding as compared to lead in the same volume. The combination of properties of machinability, high density, high radiation absorption, good corrosion resistance, and high strength makes tungsten alloy the best raw shielding materials. Tungsten alloy shielding of high density is comparatively more environmentally friendly as it has pollution-free and non-toxic properties.

Different applications of tungsten alloy shielding:

Tungsten alloy radiation shielding is an ideal material for protection, as it guaranteed that it kept the radiation exposure minimum. Strength, heat resistance, machinability, radiographic density, and low toxicity of tungsten alloy allow the tungsten shielding superior design adaptability.

Nuclear, medical, and other industries- high energy radiation shielding required

• Auto racing industry
• Aircraft control surfaces
• Firm arms
• Ship blasts
• Engine components
• Helicopter rotor systems
• Bucking bars
• Golf club weights
• Boring bars