High specific gravity alloys of Tungsten-Nickel-Iron (WNiFe) with a density of 17g/cm³ or greater are used for making tungsten isotope containers. For shielding radioisotopes from radiation, WNiFe alloys are the first choice due to their exceptional properties for radiation attenuation and chemical stability. Their wide application includes medicine, scientific research, and industry, especially for purposes involving radiotherapy, nuclide production, and radioactive waste management.
There are tungsten isotope containers that are specially designed for securely storing and transporting radioactive materials. For those needing to guarantee a protective barrier, we provide specially engineered material. Tungsten heavy metal alloys are used to construct radiation shields, or isotope safes and containers, that provide reliable absorption of radioactive radiation. These tungsten Isotope Containers provide the necessary barriers to ensure that radioactive materials are securely contained.
1. Excellent shielding performance: Gamma rays, X-rays, and even neutron rays face a serious level of shielding from the tungsten isotope container's core, which is made of high-density tungsten nickel iron (WNiFe) alloy. It can significantly weaken the radiation of volatile isotopes and provide useful armor to the operators, shielding isotopes and the environment.
2. Durability and strength are exceptional: The mechanical and impact strength of tungsten alloy is extremely high, capable of enduring large impact forces, making it able to survive large compressive forces and pressure. They do not get easily deformed or damaged during frequent use and transportation, having a long lifespan, which minimizes the risk of radioactive leakage due to container failure.
3. Good resistance to corrosion and high temperatures: There is little to no corrosion from chemical actions employing acids, alkalis, and other powerful chemically active materials. Along with this, tungsten alloy oscillates with temperature, having a high melting point, which enables the sustaining of good steaming performance even with high temperatures while ensuring safe holding and transport of volatile cesium isotopes.
4. Reduced effective diameter and light weight: Unlike conventional leaden shielding, tungsten alloy requires less thickness to achieve the same cooling effect, hence reducing the overall size and weight of the container, ease of handling and transport, and thereby enhancing operational efficiency.
5. Non-hazardous and pollution-free: Externally alloyed tungsten has non-toxic effects, so secondary damage can not occur to people, as well as nature. This alloy fulfills contemporary environmental standards and is a non-toxic and safe gouge material.
Petroleum drilling and industrial instrumentation equipment
Cancer treatment equipment
weld inspection
Large container inspection equipment
Defense nuclear submarine accessories
Material | WNiFe alloy |
Shield Thickness | Tungsten(2-2.5mm) |
Volume | 10cc,20cc |
Density | 17.0g/cm3-18.5g/cm3 |
Size | Customized |
Lead Glass Window | 1.5-3mmPb |
Delivery time | About 20 days |
Standard | ASTM, GB |
Delivery is prompt!
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