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The Irregular Interlocking Lead Bricks are specialized radiation protection components designed for unique and complex shielding needs. Made from lead ingots with a purity exceeding 99.994%, these bricks feature customizable irregular shapes—such as corners, curved edges, and special geological adaptations—that standard lead bricks cannot accommodate. Their V-shaped interlocking structure ensures seamless assembly, creating airtight protective walls and shielding rooms that prevent radiation leakage. Beyond radiation protection, these bricks offer corrosion resistance against strong acids and alkalis, electromagnetic shielding for electronic devices, and weight-balancing capabilities for mechanical equipment. Whether used in nuclear engineering, medical facility construction, or industrial settings, they provide a versatile, tailor-made solution for challenging shielding projects.
Parameter | Details |
Lead Purity | ≥99.994% high-purity lead ingots (meets international radiation protection standards) |
Lead Equivalent | 20mmpb , 30mmpb , 50mmpb , 80mmpb , 100mmpb (customizable to project needs) |
Shape Design | Irregular custom shapes (corners, curves, special geological adaptations, etc.) |
Interlocking System | V-shaped precision interlocking structure for seamless jointing |
Dimensions | Thickness and overall size fully customizable based on project drawings |
Material Density | ≥11.26g/cm³ (ensures optimal radiation shielding performance) |
Corrosion Resistance | Resistant to sulfuric acid, hydrochloric acid, and other strong acids/alkalis |
Weight per Unit | Up to 60 pounds (varies by size and lead equivalent) |
Unlike standard lead bricks, these irregular bricks can be tailored to fit unique project requirements—such as corners, curved walls, or special geological conditions—making them ideal for non-standard shielding projects.
The V-shaped interlocking design creates tight, gap-free joints between bricks, minimizing radiation leakage. This ensures uniform protection across the entire shielding structure.
Beyond radiation shielding, these bricks offer corrosion resistance for chemical environments, electromagnetic shielding for electronics, and weight balancing for mechanical equipment, delivering exceptional value across multiple applications.
Crafted with 99.994% pure lead ingots, the bricks provide consistent, reliable shielding against X-rays, gamma rays, and other high-energy radiation. The high density (≥11.26g/cm³) enhances their protective capabilities.
The interlocking structure allows quick, tool-free assembly, reducing installation time and labor costs. The bricks can also be disassembled and redeployed for future projects, improving cost-efficiency.
Used in the construction of protective walls and shielding rooms for nuclear reactors, radioactive waste storage facilities, and nuclear power plants.
Ideal for building radiation shielding walls in radiotherapy rooms, CT suites, nuclear medicine departments, and nuclide packaging areas.
Suitable for corrosion protection of storage tanks, pipelines, and industrial equipment in chemical plants. Also used for temporary shielding in industrial flaw detection and non-destructive testing zones.
Applied in high-energy radiation laboratories, nuclear research facilities, and academic institutions for shielding radioactive sources and experimental setups.
Used as weight balancers for cranes, elevators, scales, and precision equipment to reduce vibration and extend service life.
A: We can produce any irregular shape based on your project drawings or site requirements—including corners, curved edges, notched designs, and adaptations for special geological conditions. Simply provide your specifications, and our engineering team will create a perfect fit.
A: The V-shaped interlocking structure is specifically designed to eliminate gaps between bricks. Additionally, our technical team provides detailed installation guidelines to ensure proper assembly, and we offer on-site support for critical projects.
A: Yes, they have excellent corrosion resistance against strong acids, alkalis, and environmental elements. This makes them suitable for both indoor and outdoor use, including chemical plants, industrial yards, and outdoor radiation testing sites.
