Nickel Wire: oxidation-resistant, tough FCC metal for heaters, electrodes, and sensors—reliable conductivity and stability in harsh, high-temperature environments.
Fused Quartz Crucibles: ultra-pure, low-expansion SiO? with broad UV–IR transmission—essential for Si crystal growth, high-temp optics, and clean thermal processing.
Carbon (lump) offers extreme thermal stability, chemical inertness, and useful conductivity—great for composites, furnace linings, carbide precursors, and EMI/anti-static applications.
Materials science focuses on how different materials work & what we can do with them. Researchers in materials science develop and study a variety of materials.
Chromium single crystal provides grain-boundary-free uniformity for precision research—hard, high-melting, and stable for epitaxy, thin-film calibration, and transport studies.
Neodymium Wire: highly reactive lanthanide for alloying, optics, and laser hosts—processed under inert conditions for bright metallic performance in advanced systems.
Fecralloy® (FeCrAl with Y/Zr) forms a self-healing alumina scale for exceptional oxidation resistance—trusted in heating elements, filters, and catalyst supports above 1000 °C.
