A study published in the Journal of Micromechanics and Microengineering highlights the development of a novel energy harvesting device designed by engineers at Rensselaer Polytechnic Institute. The ...

MEMS-based accelerometers are increasingly deployed in harsh environments where mechanical stress is not just expected but constant.

A research team has developed a microelectromechanical system (MEMS) piezoelectric vibration energy harvester, which is only about 2 cm in diameter with a U-shaped metal vibration amplification ...

Overall, the study concludes that vibrational forces generated by AcceleDent do not induce thermal changes in intraoral ...

What is predictive maintenance (PdM)? It’s the application of instrumentation and intelligence to help determine the condition of equipment and whether maintenance should be performed to avoid ...

The number of ways to harvest energy that would otherwise go unused and wasted is extraordinary. To cite a few of the many examples, there’s the heat given off during almost any physical or electronic ...

Using a more complex resonator as a dynamic magnifier, the efficiency of a MEMS-based energy harvester undergoing random impulse stimulation is greatly improved. The limitations of basic piezo-based ...

The jiggly, quaking contraption is eye-catching—a natural social media star. But is the science behind vibration plates on ...