Titanium zirconium lead alloy sputtering targets are ternary heavy-metal functional targets. Combining the strength of titanium and zirconium with the radiation shielding properties of lead, they are specifically designed for nuclear protection, military radiation shielding, and specialized functional coating applications, delivering high-performance composite functional thin-film solutions.
We offer ternary alloy targets in multiple composition ratios, supporting custom sizing, backing plate bonding, and surface polishing to meet specialized process requirements. Contact us for specific ratios.
Radiation Shielding
Structural Stability
Controllable Composition
Sputtering Uniformity
Specialized Adaptability
Nuclear Industry Protective Coatings: Used for shielding windows in nuclear facilities and surface coatings on protective suits to attenuate radiation penetration.
Military Radiation Protection Equipment: Applied in radiation-shielding functional films for special vehicles and aircraft cabins.
Medical Radiation Protection: Provides localized radiation shielding coatings for internal components of CT scanners, X-ray machines, and similar equipment.
Scientific Instrument Shielding: Radiation isolation films for high-energy physics experimental apparatus and detectors.
Q1: What are the primary applications for titanium-zirconium-lead targets?
A1: Primarily used in specialized fields requiring both structural strength and radiation shielding, such as nuclear industry, military protection, and medical radiation equipment.
Q2: Is the lead content adjustable?
A2: Custom lead content ranging from 10% to 60% is supported. The specific ratio is designed by balancing shielding effectiveness and process requirements.
Q3: Are there environmental compliance issues with this target material?
A3: As an industrial functional material, the target requires disposal according to hazardous solid waste regulations. We provide complete compliance documentation.
Q4: Are there special requirements for the sputtering process?
A4: RF sputtering is recommended. A lead vapor filtration system must be installed, and the operating environment must comply with occupational health and safety regulations.
Each batch is supplied with:
Certificate of Analysis (COA)
Technical Data Sheet (TDS)
Material Safety Data Sheet (MSDS)
Size Inspection Report
Third-party testing reports available upon request
We possess specialized process expertise in heavy metal alloy target materials, ensuring uniform lead distribution through vacuum induction melting and rapid solidification techniques. We strictly adhere to radiation material management regulations, providing end-to-end support from material compliance to shielding design.
Molecular formula: TiZrPb
Appearance: Silver-gray to metallic luster target material
Inner Packaging: Vacuum-sealed bags and boxed to prevent contamination and moisture.
Outer Packaging: Cartons or wooden crates selected based on size and weight.
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