Researchers have resolved a long-standing debate surrounding laser additive manufacturing processes with a pioneering approach to defect detection. Researchers from EPFL have resolved a long-standing ...

At Texas A&M University, experimental particle physicist Dr. Rupak Mahapatra spends his days chasing some of the faintest ...

Heart pacemakers and other implantable medical devices must be free of even minor defects, particularly in the titanium casing that holds and protects the electronics. Ranging in thickness from 0.15 ...

Additive manufacturing (AM) techniques increasingly require novel non-destructive inspection methods able to fit smoothly within AM workflows, in particular for the detection of structural defects. A ...

The Amplified MCT Detector perfectly complements DRS Daylight’s pulsed mid-IR lasers, delivering a 245° K operational temperature and a rise time of less than 3 nanoseconds, all without requiring ...

In addition to surface and subsurface defects, residual stress represents a concern. Over time, these stress points, ...

The progression of laser additive manufacturing — which involves 3D printing of metallic objects using powders and lasers — has often been hindered by unexpected defects. Traditional monitoring ...