Tungsten alloys have exceptional protective capabilities for X-rays and gamma rays as they possess high shielding performance. Tungsten has extreme density, which is 60% more than that of lead, an attribute that makes tungsten alloys irreplaceable for shielding applications. While using tungsten alloy for shielding, the dimensions of the shielding device can be minimized, which enables more flexibility in the structural design and spatial arrangement of adjacent equipment.
Tungsten alloy has demonstrated tremendous practical value in numerous domains. For instance, in the construction of precision sights, it is vital for tungsten alloy shielding to eliminate any form of interference rays to ensure stabilized performance and reliability, which in turn guarantees high-accuracy aiming operations. In the nuclear industry, tungsten alloy shields can be used to construct nuclear shielding devices that offer robust radiation protection for personnel, equipment, and sensitive nuclear logistics, ensuring the safe operation of the nuclear facilities while operating in intricately complex radiation environments. Also, in the medical sector, for example, during PET injection, tungsten alloy shielding can substantially eliminate radiation leakage and safeguard the medical personnel and patients from unwanted radiation harm, as well as ensure the safety of medical procedures. In other words, it is the unique properties of tungsten alloy shielding that make it so important in a number of critical areas whose importance cannot be undermined.
1. Effective protective shielding: Tungsten alloys possess the highest density within the range 17.5-19.3 g/cm³, which is significantly greater than lead's density of approximately 11.35 g/cm³. The noted density allows absorption and scattering of X-rays and Gamma rays more efficiently, allowing for the desired shielding effect with less material thickness.
2. Exceptional strength and toughness: Tungsten alloys have incredibly high tensile strength, good toughness, and can absorb large amounts of mechanical stress. This reduces the device deformation or damage during operation and allows the achievement of reliable shielding performance despite complex, enduring environmental conditions.
3. Resistant to chemical corrosion: Tungsten alloys demonstrate reasonable resistance to most acid, alkali, and salt solutions at standard room temperature. This allows for the shielding device made of tungsten alloys to be chemically stable and not easily corroded, and reduces the shielding effect in many chemical surroundings.
PET syringe shield
Tungsten vial shield
Tungsten FDG transport container
Collimator fora gamma camera
Technetium generator
Material | WNiFe alloy |
Shield Thickness | Tungsten(2-2.5mm) |
Vial volume | 1cc,3cc,5cc,10cc,20cc |
Density | 17.0g/cm3-18.5g/cm3 |
Size | Customized |
Finishing material | Silver-polished surface |
Shielding material | Tungsten and alloy |
External dimensions | diameter 93mm x height130mm |
Tungsten Shielding thickness | 29.5mm |
Construction: | Full tungsten the outside and inside. |
Weight: | 14kgs |
Pit dimesions | Diameter 33mm x height 57mm |
Viewing window | Lead glass 5.2 density |
Lead Glass Window | 1.5-3mmPb |
Delivery time | 20 days |
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