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 ...

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 ...

Micro- and nanomechanical sensing is widely used in atomic force microscopy (AFM) nanocharacterization 1, biosensing 2,3, mechanical property measurements 4, and force 5,6 and mass sensing 7,8,9. The ...

Compared to traditional structural materials, polymer matrix composites (PMC) offer greatly enhanced performance and flexibility. However, these benefits come at the cost of increased material ...

Out of curiosity, I bought a strain gauge sensor module after it appeared on sale. This write-up is fuzzy, since I decided to write based on a quick inspection of it. Have fun reading my little post ...

Strain gauges are useful sensors to measure the strain of an object. They are attached using adhesives to the object which is under application of force. The resulting change in electrical resistance ...

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 ...

Just about any 3D printer can be satisfying to watch as it works, but delta-style printers are especially hypnotic. There’s just something about the way that three linear motions add up to all kinds ...

If you’ve ever done maintenance or repair work on your bicycle, you’ll know that positioning a bike in your workshop isn’t trivial. You can use your bike’s kickstand, or lean it against a wall, but ...