Radiation Shielding Tailored Precisely to Your Needs
ShieldMatter is dedicated to providing customized radiation shielding solutions tailored to your specific needs. Whether you require tungsten or boron carbide shields, we utilize advanced additive manufacturing to deliver high-quality products for radiation labs, medical facilities, or experimental setups. Our physics-driven designs ensure optimal protection and performance.
Manufacturing of Advanced Metal and Composite Structures
From Inconel to copper and many other materials in between, we have the capability to bring your product to life quickly and efficiently in a remarkably short amount of time. Additive manufacturing technology enables us to create highly complex shapes and intricate designs that would be difficult or impossible with traditional methods. This process eliminates the need for CNC machining or bulk material costs, making production faster, more cost-effective, and highly customizable.
Advanced Metal & Composite Fabrication
ShieldMatter manufactures high-density metal and composite components using tool-free fabrication and sintered densification processes.
Tungsten and Boron-carbide Composites
88.0% – 94.0% pure tungsten. Can be used as a replacement for lead for radiation shielding with no sintering required.
50.0% – 60.0% boron carbide content. Can be used as neutron absorber without sintering.
Complex Internal Geometries
Produce metal or ceramic composites quickly and easily without CNC machining or bulk material costs. This cost-effective method enables the creation of complex internal structures unattainable through traditional techniques.
Sintered high-performance alloys
Sintering is a key process that strengthens materials by fusing particles into a cohesive structure. It also removes organic binders used in additive manufacturing, resulting in a cleaner, more durable product.
Engineered for High-Energy and Critical Environments
Photon Attenuation Systems
High-density tungsten and engineered composites optimized for gamma and X-ray attenuation in laboratory and research environments for shielding and collimation.
Neutron Absorption Systems
Boron-based materials engineered for efficient neutron absorption while maintaining structural integrity in nuclear research applications.
Advanced Metal & Composite Engineering
Precision fabrication of sintered alloys and composite metals, enabling complex geometries without traditional tooling or excess material waste.
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