Add to ORKGStrength and fatigue tests were performed to investigate the reliability properties of Si wafer-bonded samples exposed to static or cyclic mechanical loading. A distinct strength decrease with increasing loading duration or load cycle number, respectively was found limiting the lifetime of mechanically stressed wafer bonded components. As a consequence, loaded wafer-bonded sensors and actuators may suddenly fail during application. Appropriate fracture mechanical approaches can be applied to predict the lifetime behavior for a given loading situation and, therefore, to provide a high reliability of micromechanical devices
Wafer bonding describes all technologies for joining two or more substrates directly or using certai...
Wafer bonding describes all technologies for joining two or more substrates directly or using certai...
With advances in silicon microfabrication techniques, electromechanical sensors are shrunk to nanom...
Fatigue tests were performed to investigate the reliability properties of wafer-bonded single crysta...
Reliability tests and fracture mechanics models for wafer-bonded components are presented which can ...
Duringe use, directly wafer-bonded devices such as acceleration sensors, gyroscopes, micropumps, or ...
Fatigue tests on directly wafer-bonded silicon samples were performed using pre-cracked Micro-Chevro...
Wafer bonding techniques are frequently used for MEMS/MOEMS fabrication. In this paper, the potentia...
The fabrication of micromechanical components, such as acceleration sensors, pressure sensors, valve...
In this paper, theoretical fracture mechanics concepts as well as strength and fatigue testing metho...
In addition to through silicon vias (TSV), wafer bonding became one of the key process steps within ...
The long-term mechanical stability of the wafer level package is an important aspect in the reliabil...
AbstractDue to the rapid development of packaging industry accelerated reliability testing for evalu...
The fabrication of silicon microelectromechanical components (MEMS) involves joining of two or even ...
This paper reports on a setup and a method that enables automated analysis of mechanical stress impa...
Wafer bonding describes all technologies for joining two or more substrates directly or using certai...
Wafer bonding describes all technologies for joining two or more substrates directly or using certai...
With advances in silicon microfabrication techniques, electromechanical sensors are shrunk to nanom...
Fatigue tests were performed to investigate the reliability properties of wafer-bonded single crysta...
Reliability tests and fracture mechanics models for wafer-bonded components are presented which can ...
Duringe use, directly wafer-bonded devices such as acceleration sensors, gyroscopes, micropumps, or ...
Fatigue tests on directly wafer-bonded silicon samples were performed using pre-cracked Micro-Chevro...
Wafer bonding techniques are frequently used for MEMS/MOEMS fabrication. In this paper, the potentia...
The fabrication of micromechanical components, such as acceleration sensors, pressure sensors, valve...
In this paper, theoretical fracture mechanics concepts as well as strength and fatigue testing metho...
In addition to through silicon vias (TSV), wafer bonding became one of the key process steps within ...
The long-term mechanical stability of the wafer level package is an important aspect in the reliabil...
AbstractDue to the rapid development of packaging industry accelerated reliability testing for evalu...
The fabrication of silicon microelectromechanical components (MEMS) involves joining of two or even ...
This paper reports on a setup and a method that enables automated analysis of mechanical stress impa...
Wafer bonding describes all technologies for joining two or more substrates directly or using certai...
Wafer bonding describes all technologies for joining two or more substrates directly or using certai...
With advances in silicon microfabrication techniques, electromechanical sensors are shrunk to nanom...