Tungsten Alloy Radiation Wall

Tungsten Alloy Radiation Wall

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Why Use Tungsten Alloy Radiation Shielding?

Compared to traditional radiation shielding materials such as lead and boron carbide, tungsten alloy provides excellent density combined with small volume. At the same weights tungsten alloy radiation shielding with-high density alloy can provide the same energy absorption as lead using 1/3 less space. When the weight is certain, more density, more denser, and the thickness would be thinner, tungsten alloy radiation shielding material could be made with thinner thickness but high absorption of radiation in high density. That is why tungsten alloy radiation shielding material is suitable for radiation shielding.

During design of shielding,tungsten alloy radiation shielding is calculated according to requirements of shield to abate the multiple shielding materials' thickness.

Formula: K = e0.693 d / 1/2

K: Shield weakened multiple

1/2: The radiation shielding of the half-value layer values

d: Tungsten alloy radiation shielding thickness, with the half-value layer thickness of their units, you need to half-value layer thickness of the quality of translation into the thickness of the material, divided by the density of the tungsten alloy radiation shieldingl can be obtained.

What Is Tungsten Alloy Radiation Wall?

Tungsten alloy radiation wall is based on the principle of attenuation, which is the ability to reduce a wave or ray's effect by blocking or bouncing particles through a barrier material. Charged particles may be attenuated by losing energy to reactions with electrons in the barrier, while x-ray and gamma tungsten alloy radiation shieldings are attenuated through photoemission, scattering or pair production. Neutrons can be made less harmful through a combination of elastic and inelastic scattering, and most neutron barriers are constructed with materials that encourage these processes. Tungsten alloy radiation shielding offered by us is of highest quality.

Radiation is a serious concern in nuclear power facilities, industrial or medical x-ray systems, radioisotope projects, particle accelerator work, and under number of other circumstances.Tungsten alloy radiation shielding can protect us from it. Containing radiation and preventing it from causing physical harm to employees or their surroundings is an important part of operating equipment that tungsten alloy radiation wall emits potentially hazardous rays. Preserving both human safety and structural material that may be compromised from radiation exposure are vital concerns, as well as tungsten alloy radiation wall, such as electronic devices and photographic film in tungsten alloy radiation wall. Tungsten alloy radiation wall is our leading products.

The process of regulating the effects and degree of penetration of radioactive rays varies according to the type of radiation involved. Indirectly ionizing radiation, which includes neutrons, gamma rays, and x- rays, is categorized separately from directly ionizing radiation. Tungsten alloy radiation wall involves charged particles. Different materials of tungsten alloy radiation wall are better suited for certain types of radiation than others are, as determined by the interaction between specific particles and the elemental properties of the tungsten alloy radiation wall. We can provide tungsten alloy radiation wall products in strict accordance with your requirements.