Lead Wire | |
Product No | NRE-60008 |
CAS | 7439-92-1 |
Molecular Weight | 207.20 g/mol |
Molecular Formula | Pb |
Diameter | 2 mm(Can be customized) |
Density | 22.65 g/cm3 |
Purity | 99.95% |
Resistivity | 20.65 μΩ-cm |
Melting Point | 1740 °C |
Boiling Point | 327.4 °C |
Colour | grey |
Lead Wire
Lead wire, due to its unique properties, such as high density, malleability, and corrosion resistance, finds application in various specialized fields. Here’s a detailed look at the different applications of lead wire:
Electrical and Electronics
Electrical Connectors:
Application: Used in certain types of electrical connectors and components.
Benefits: Provides reliable electrical connections with good conductivity.
Technical Detail: Lead wire’s malleability allows for precise and reliable connections in specific electronic applications.
Shielding and Cable Sheathing:
Application: Employed as a shielding material in cables and wires to protect against electromagnetic interference (EMI).
Benefits: Offers effective shielding properties and helps prevent signal loss or interference.
Technical Detail: Lead’s high density provides excellent shielding capabilities, particularly in applications where interference protection is crucial.
Radiological and Medical Applications
Radiation Shielding:
Application: Used in radiation shielding for medical and industrial equipment, such as X-ray machines and nuclear reactors.
Benefits: Protects against harmful radiation exposure, ensuring safety for both operators and patients.
Technical Detail: Lead’s high density and atomic number make it highly effective in blocking and absorbing radiation.
Medical Equipment:
Application: Applied in certain medical devices and equipment that require radiation protection.
Benefits: Provides safety and protection in medical environments where radiation is used.
Technical Detail: Lead wire is used in lead-lined components or as part of shielding materials in medical applications.
Automotive and Aerospace
Lead-Tin Soldering:
Application: Used in lead-tin soldering for electrical and electronic components in automotive and aerospace applications.
Benefits: Ensures strong, reliable solder joints in critical systems.
Technical Detail: Lead-tin solder is commonly used for its melting point and workability, although lead-free alternatives are increasingly used due to environmental concerns.
Counterweights and Ballasts:
Application: Employed as counterweights or ballasts in various automotive and aerospace components.
Benefits: Provides stability and balance due to lead’s high density.
Technical Detail: Lead wire can be used to create adjustable counterweights or ballasts in vehicles and aircraft for precise weight management.