Additive Manufactured Copper Microchannel Heat Sink for Laser Systems
Additive Manufactured Copper Microchannel Heat Sink for Laser Systems High-power lasers are ruthless about heat. Whether you’re running fiber, diode, …
Read More →Case studies, qualification notes, and technical guides for copper additive manufacturing.
Additive Manufactured Copper Microchannel Heat Sink for Laser Systems High-power lasers are ruthless about heat. Whether you’re running fiber, diode, …
Read More →Copper 3D Printed Vapor Chamber Prototype for Advanced Cooling An engineering note for teams exploring metal additive manufacturing (AM) to unlock …
Read More →LPBF Copper Heat Spreader Case Study for Electronics Packaging Executive summary This case study shows how a laser powder bed fusion (LPBF) copper …
Read More →3D Printed CuCrZr Cooling Manifold for Fluid Thermal Regulation Industrial cooling systems are being redesigned around one simple idea: put the …
Read More →Copper Alloy Cold Plate Design with Conformal Cooling Channels Conformal cooling turns a good cold plate into a great one. By 3D printing copper …
Read More →Custom Copper Cooling Plate for Semiconductor Power Modules Semiconductor power modules—IGBTs, SiC MOSFETs, and rectifier stacks—push serious watts …
Read More →High Conductivity Copper Lattice Structure for Heat Dissipation Efficiency Engineers have a love–hate relationship with heat. We need it gone—fast—but …
Read More →3D Printed Copper Heat Sink for High-Power Electronics Cooling Why copper + LPBF is a big deal for thermal management When your electronics run hot, …
Read More →CuCrZr Cold Plate Additive Manufactured for EV Battery Thermal Control EV battery packs are getting denser, charge rates are rising, and thermal …
Read More →Turn critical designs into production-ready copper parts with LPBF & DMLS—conductive, consistent, and well-documented.