Laser sintering of printed silver thin films for fabrication of strain sensors directly on a structure

Abstract: Piezoresistive strain sensors, commonly known as resistance strain gauge, have many important applications. In this work, an alternative method to fabricate piezoresistive strain sensors directly on the structure of interest is demonstrated using a particle-free silver ink as the sensing material. The sensing material is first printed as a rectangular film on the structure of interest and a conductive serpentine pattern is generated by selective laser sintering. Only the material exposed to the focused laser i… Show more

“…In this work, the issues of COTS-SG are addressed by using graphene ink and additive manufacturing to fabricate a strain sensor directly on a 3D-printed thermoplastic structure that is porous and has high surface roughness. This recently patented technique circumvents the problems associated with attaching COTS-SG on unconventional surfaces such as that of 3D-printed ULTEM [14]. Unlike other printed graphene strain sensors [15], the technique reported here relies on a laser sintering tool to define the strain gauge pattern, rather than the printer itself, thereby eliminating the need for a high-precision printing tool.…”

Laser-defined graphene strain sensor directly fabricated on 3D-printed structure

“…In this work, the issues of COTS-SG are addressed by using graphene ink and additive manufacturing to fabricate a strain sensor directly on a 3D-printed thermoplastic structure that is porous and has high surface roughness. This recently patented technique circumvents the problems associated with attaching COTS-SG on unconventional surfaces such as that of 3D-printed ULTEM [14]. Unlike other printed graphene strain sensors [15], the technique reported here relies on a laser sintering tool to define the strain gauge pattern, rather than the printer itself, thereby eliminating the need for a high-precision printing tool.…”

Laser-defined graphene strain sensor directly fabricated on 3D-printed structure

Design and Fabrication of a Metal Resistance Strain Sensor With Enhanced Sensitivity

Characterization of Printed Silver Thin Films Sintered by a Scanning Laser Technique