Strain gauges are the fundamental sensing elements for many types of sensors, including pressure sensors, load cells, torque sensors, and position sensors. Most strain gauges are foil types, available ...

Strain gauge sensors measure the strain (displacement) of an object under an applied force. When they are adhesively attached to the object under stress (an applied force), they deform with the object ...

Simulating a resistive strain gauge can be a difficult task; The change in resistance value caused by applying stress to a strain gauge is extremely small (typically 0.1%) and requires very fine ...

Thermal and mechanical stresses are creating significant challenges in heterogeneous chiplet assemblies, increasing the time and cost required to work through all the possible physical effects, ...

Strain measurement is imperative during prototype design and testing. Measuring strain ensures that materials perform as they should and that equipment is safe, functional, and durable. The resistive ...

Durability of components under dynamic load can be increased by understanding the origin of the stress and strain distribution. While numerical simulations based on finite element (FE) models can help ...

The physical properties of plastic materials are a vital part of product design and quality control. As a result of this, numerous materials tests are carried out. The most rudimentary of these tests ...