Lead/Bismuth Alloy Foil (Pb90/Bi10 Atomic %) Description
Stanford Advanced Materials supplies high-quality Lead/Bismuth Alloy Foil
(Pb90/Bi10 Atomic %), renowned for its precise composition and uniform
thickness. Manufactured through advanced alloying techniques, this foil
delivers exceptional consistency, purity, and performance. The Pb-Bi alloy
features a relatively low melting point (~290°C), excellent radiation shielding
properties, and stable thermal characteristics, making it highly beneficial in
specialized industrial applications.
This alloy is widely utilized in applications requiring thermal stability
and radiation shielding, including nuclear reactors, radiation shielding
materials, electronic components, and advanced metallurgical research.
Lead/Bismuth Alloy Foil (Pb90/Bi10 Atomic %) Applications
Radiation Shielding:
Effective shielding material against X-rays and gamma radiation.
Electronics and
Semiconductor: Used in electronic components requiring precise thermal
and electrical properties.
Nuclear Industry:
Utilized as coolant material and shielding in nuclear reactors.
Metallurgical Research:
Applied extensively in alloy development and experimental metallurgy.
Lead/Bismuth Alloy Foil (Pb90/Bi10 Atomic %) Packing
Our Lead/Bismuth Alloy Foil is packaged carefully under inert or vacuum
conditions to maintain purity and prevent oxidation or contamination.
Customized packaging according to customer specifications.
Standard packaging includes vacuum-sealed bags or inert gas protection.
Frequently Asked Questions
What is Lead/Bismuth Alloy used for?
Lead/Bismuth alloys are primarily used in radiation shielding, electronics,
nuclear reactors, and metallurgical research due to their low melting point,
thermal stability, and excellent shielding properties.
What advantages does Pb-Bi Alloy Foil have over pure lead?
Pb-Bi alloy foils have improved thermal stability, lower melting points, and
superior neutron absorption characteristics compared to pure lead, making them
advantageous in nuclear and electronic applications.
Is Lead/Bismuth Alloy Foil toxic?
Lead and bismuth alloys require safe handling practices to minimize exposure.
Proper protective equipment and adherence to safety protocols ensure safe and
effective use.
How is Lead/Bismuth Alloy Foil produced?
Lead/Bismuth alloy foil is typically produced by melting the elements together
under controlled conditions followed by precise rolling or pressing processes
to achieve the desired thickness and uniformity.
Can the thickness and dimensions be customized?
Yes, Stanford Advanced Materials offers customization of thickness and
dimensions to meet specific customer requirements.
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