A survey of Mechanical failure and design for Reliability of MEMS

Abstract: In this paper, several experimental mechanical investigation techniques are presented to evaluate the reliability of micro-electro-mechanical systems (MEMS). Microsystems in recent years have spread in many everyday devices. We find micro-scale sensors and actuators in automotive, biomedical and aerospace applications where are demanded very strict performance requirements. Electromechanical non-linear coupling is often a crucial problem both in design and also for the reliability of the system. Mechanism of f… Show more

“…Since 2000, many articles have reviewed the reliability of MEMS in a comprehensive way. Van Spengen (2003) [13], Huang, Yunhan (2012) [14], and Somà, A (2020) et al [15] have summarized experimental research focused on the failure phenomena of MEMS. Tanner et al [16] reviewed successful commercial applications of MEMS in 2009 and looked forward to the main challenges facing MEMS reliability in the future.…”

Reliability of MEMS in Shock Environments: 2000–2020

“…Since 2000, many articles have reviewed the reliability of MEMS in a comprehensive way. Van Spengen (2003) [13], Huang, Yunhan (2012) [14], and Somà, A (2020) et al [15] have summarized experimental research focused on the failure phenomena of MEMS. Tanner et al [16] reviewed successful commercial applications of MEMS in 2009 and looked forward to the main challenges facing MEMS reliability in the future.…”

Reliability of MEMS in Shock Environments: 2000–2020

“…According to the literature [ 12 , 13 ], the main failure modes of MEMS inertial devices when subjected to vibration stress are fatigue, adhesion, stiffness degradation, pull-in instability, and structural fracture.…”

Reliability of MEMS inertial devices in mechanical and thermal environments: A review

Mechanical and dynamic characteristics of double and single beam cantilevers for MEMS manipulation