Add to ORKGAlthough bulk silicon is not known to exhibit susceptibility to cyclic fatigue, micron-scale structures made from silicon films are known to be vulnerable to degradation by fatigue in ambient air environments, a phenomenon that has been recently modeled in terms of a mechanism of sequential oxidation and stress-corrosion cracking of the native oxide layer
Surface properties can markedly affect the mechanical behavior of structural thin films used in micr...
Polycrystalline silicon (polysilicon) is the most commonly used structural material of microscopic e...
AbstractIn contrast to monotonic load studies, the engagement with a cyclic time dependent processes...
Fatigue failure in micron-scale polycrystalline silicon structural films, a phenomenon that is not o...
Reported nearly a decade ago, cyclic fatigue failure in silicon thin films has remained a mystery. S...
Fatigue failure in micron-scale polycrystalline silicon structural films, a phenomenon that is not o...
It has been established that microelectromechanical systems (MEMS) created from polycrystalline sili...
A study has been made of high-cycle fatigue in 2um thick structural films of n+- type, polycrystalli...
Although bulk silicon is not susceptible to fatigue, micron-scale silicon is. Several mechanisms hav...
Fatigue failure in micron-scale polycrystalline silicon structural films, a phenomenon that is not o...
Previous studies on very high-cycle fatigue behavior of thin silicon films suggest a strong environm...
Although bulk silicon is not susceptible to fatigue,micron-scale silicon is. Several mechanisms have...
The reliability of MEMS-based sensors for automotive applications critically depends on their high-c...
This paper presents the results of an experimental stydy of the micromechanisms of fatigue crack nuc...
Understanding the mechanisms for fatigue crack initiation and propagation in micron-scale silicon (S...
Surface properties can markedly affect the mechanical behavior of structural thin films used in micr...
Polycrystalline silicon (polysilicon) is the most commonly used structural material of microscopic e...
AbstractIn contrast to monotonic load studies, the engagement with a cyclic time dependent processes...
Fatigue failure in micron-scale polycrystalline silicon structural films, a phenomenon that is not o...
Reported nearly a decade ago, cyclic fatigue failure in silicon thin films has remained a mystery. S...
Fatigue failure in micron-scale polycrystalline silicon structural films, a phenomenon that is not o...
It has been established that microelectromechanical systems (MEMS) created from polycrystalline sili...
A study has been made of high-cycle fatigue in 2um thick structural films of n+- type, polycrystalli...
Although bulk silicon is not susceptible to fatigue, micron-scale silicon is. Several mechanisms hav...
Fatigue failure in micron-scale polycrystalline silicon structural films, a phenomenon that is not o...
Previous studies on very high-cycle fatigue behavior of thin silicon films suggest a strong environm...
Although bulk silicon is not susceptible to fatigue,micron-scale silicon is. Several mechanisms have...
The reliability of MEMS-based sensors for automotive applications critically depends on their high-c...
This paper presents the results of an experimental stydy of the micromechanisms of fatigue crack nuc...
Understanding the mechanisms for fatigue crack initiation and propagation in micron-scale silicon (S...
Surface properties can markedly affect the mechanical behavior of structural thin films used in micr...
Polycrystalline silicon (polysilicon) is the most commonly used structural material of microscopic e...
AbstractIn contrast to monotonic load studies, the engagement with a cyclic time dependent processes...