top of page

Lead Ingots & Bricks 

Mars Strahlenschutz provides high-density lead shielding components engineered for nuclear medicine, research reactors, and industrial radiography. Our lead bricks and ingots are essential for constructing bunkers, radiation-proof walls, hot cells, and custom collimators, ensuring reliable protection in high-dose environments.

Key Technical Specifications:
  • Purity: Standard and high-purity options (>99.9% Pb)
  • Density: 11.34 g/cm³ for maximum attenuation
  • Shapes: Interlocking (chevron) and standard flat bricks
  • Customization: Available in various sizes and weights for specific storage and bunker requirements

A batch of precision-cast lead ingots ready for industrial shielding applications.

Standard flat lead bricks designed for constructing modular radiation-proof walls.

IMG-20260611-WA0042.jpg

Interlocking chevron lead bricks stacked for a high-density bunker wall installation.

IMG-20260611-WA0060.jpg

Interlocking lead bricks stacked for modular shielding walls.

Proven Shielding Performance Across Europe

Reliable radiation protection solutions for leading industrial, medical, and research facilities.

Nuclear Medicine Department

Deployed high-purity lead bricks for hot cell construction, ensuring safe radioisotope handling with modular shielding flexibility.

NDT Laboratory Bunker

Integrated lead ingots into radiography bunkers to suppress gamma leakage, achieving strict compliance with industrial dose limits.

Research Institute Reactor

Supplied precision-cast interlocking shielding components for research beamlines, optimizing high-density protection in confined spaces.

Contact Us

Please provide the details of your project to ensure safety and compliance with radiation protection standards.

Project Type

Select the primary application for this shielding project.

Request a Technical Consultation for Lead Ingots and Bricks

Share your architectural drawings, specific dose requirements, and project timelines. Our engineering team will analyze your data to size the shielding correctly for optimal radiation protection and compliance.

bottom of page