Additive Manufacturing for Aircraft Blade Repair
Pete Zelinski, Editor in Chief of Modern Machine Shop + Additive Manufacturing Media, dives deep into jet engine blade repair using Optomec Adaptive Additive Manufacturing technology. Watch Now [...]
Industry’s First Fully Automated Work Cell for the Additive Repair of Turbine Parts
The LENS manufacturing process has been optimized for repair of high value components. Cost-effectively fabricate, enhance, and repair high-performance metal components in state-of-the-art materials such as titanium, stainless steel, and Inconel®.
Component Repair
The LENS manufacturing process has been optimized for repair of high value components. Cost-effectively fabricate, enhance, and repair high-performance metal components in state-of-the-art materials such as titanium, stainless steel, and Inconel®.
High Frequency RF Interconnects
As the frequency of RF packages climb up and beyond 60 GHz, microstrip and waveguide line widths diminish with substrate thickness and the limitations of traditional interconnect bonding techniques reach [...]
Wafer Level Packaging
Printing 3D Interconnects & RDLs directly on die enabling next generation packaging
Package Level Shielding
Printing of conductive inks & pastes directly onto packaged die for shielding
Printed Antenna
Real-time printing of silver antenna on polycarbonate injection molded mobile phone insert. […]
Turbine Bladed Disk Blisk Repair
Optomec DED repairs the leading edges of gas turbine blades using a cobalt-based, wear-resistant material. The repair was verified with a 50,000-cycle fatigue test.