Add to ORKGThe reliability of micro electro-mechanical systems (MEMS) became a fundamental topic of investigation as a result of their widespread application in many day-to-day life devices. From the structural viewpoint the most relevant sources of lifetime reduction are mechanical fatigue and high temperatures. The typical working conditions of MEMS include repetitive cyclic loads and hig
Most of the actual applications for RF-MEMS switch require high reliability, but consolidated qualif...
Time to failure estimations of RF-MEMS (radio-frequency microelectromechanical system) switches unde...
Temperature cycling tests are standard industry practice for determining the thermomechanical fatigu...
Potential problems induced by the multilayered manufacturing process pose a serious threat to the lo...
The most relevant issues of mechanical design of microsystems are presented. Micro electro-mechanica...
The reliability design and the lifetime of MEMS from optical applications is strongly dependent on t...
AbstractIt is well understood that thermomechanical fatigue (TMF) lives are significantly influenced...
The study of creep in MEMS is crucial for their lifetime prediction and reliability evaluation. The ...
Portable devices are exposed to different kind of loadings during their daily use. These devices ar...
In satellite applications the devices have to retain their functionality for years and this requirem...
The burgeoning new technology of Micro-Electro-Mechanical Systems (MEMS) shows great promise in the ...
Lifetime prediction and reliability evaluation of micro-electro-mechanical systems (MEMS) are influe...
Life-time of power electronics assemblies is limited, mainly due to the numerous thermal cycles expe...
The technology trends of Microelectronics and Microsystems are mainly characterized by miniaturizati...
The situation in which a component or structure is maintained at high temperature under the action o...
Most of the actual applications for RF-MEMS switch require high reliability, but consolidated qualif...
Time to failure estimations of RF-MEMS (radio-frequency microelectromechanical system) switches unde...
Temperature cycling tests are standard industry practice for determining the thermomechanical fatigu...
Potential problems induced by the multilayered manufacturing process pose a serious threat to the lo...
The most relevant issues of mechanical design of microsystems are presented. Micro electro-mechanica...
The reliability design and the lifetime of MEMS from optical applications is strongly dependent on t...
AbstractIt is well understood that thermomechanical fatigue (TMF) lives are significantly influenced...
The study of creep in MEMS is crucial for their lifetime prediction and reliability evaluation. The ...
Portable devices are exposed to different kind of loadings during their daily use. These devices ar...
In satellite applications the devices have to retain their functionality for years and this requirem...
The burgeoning new technology of Micro-Electro-Mechanical Systems (MEMS) shows great promise in the ...
Lifetime prediction and reliability evaluation of micro-electro-mechanical systems (MEMS) are influe...
Life-time of power electronics assemblies is limited, mainly due to the numerous thermal cycles expe...
The technology trends of Microelectronics and Microsystems are mainly characterized by miniaturizati...
The situation in which a component or structure is maintained at high temperature under the action o...
Most of the actual applications for RF-MEMS switch require high reliability, but consolidated qualif...
Time to failure estimations of RF-MEMS (radio-frequency microelectromechanical system) switches unde...
Temperature cycling tests are standard industry practice for determining the thermomechanical fatigu...