Add to ORKGA systematic study of failure initiation in small-scale specimens has been performed to assess the effect of size scale on "failure properties" by drawing on the classical analysis of elliptically perforated specimens. Limitations imposed by photolithography restricted the minimum radii of curvature of the specimen perforations to one micron. By varying the radius of curvature and the size of the ellipses, the effects of domain size and stress concentration amplitude could be assessed separately to the point where the size of individual grains (~0.3 µm) becomes important. The measurements demonstrate a strong influence of the domain size under elevated stress on the "failure strength" of MEMS scale specimens, while the amplitude, or the var...
The issue of mechanical characterization of polysilicon used in Micro Electro Mechanical Systems (M...
Designing reliable MEMS structures presents numerous challenges. Polycrystalline silicon fractures i...
Experimentation at the micron level requires specific tools and methods. It will be illustrated how ...
A systematic study of failure initiation in small-scale specimens has been performed to assess the e...
Mechanical design of MEMS requires the ability to predict the strength of load-carrying components w...
Freestanding devices fabricated for Microelectromechanical Systems (MEMS) employ slender polysilicon...
In an effort to explain the considerable variations in measured mechanical strength of polysilicon f...
Mission critical applications of MEMS devices require knowledge of the distribution in their materia...
Weibull strength distributions of single crystal silicon and polysilicon measured from micro-specime...
MEMS are often exposed to accidental shocks during service, specially when mounted on portable devic...
<p>Mechanical strength of components increases as their size decreases. Optimum design of reliable s...
Shock-induced failure of polysilicon MEMS is investigated by adopting a multi-scale approach. To und...
The Young's modulus and strength of polysilicon specimens manufactured in the same production run we...
A new MEMS for on-chip mechanical testing of 0.7 µm thick polysilicon film has been designed, modell...
The safe, secure and reliable application of Microelectromechanical Systems (MEMS) devices requires ...
The issue of mechanical characterization of polysilicon used in Micro Electro Mechanical Systems (M...
Designing reliable MEMS structures presents numerous challenges. Polycrystalline silicon fractures i...
Experimentation at the micron level requires specific tools and methods. It will be illustrated how ...
A systematic study of failure initiation in small-scale specimens has been performed to assess the e...
Mechanical design of MEMS requires the ability to predict the strength of load-carrying components w...
Freestanding devices fabricated for Microelectromechanical Systems (MEMS) employ slender polysilicon...
In an effort to explain the considerable variations in measured mechanical strength of polysilicon f...
Mission critical applications of MEMS devices require knowledge of the distribution in their materia...
Weibull strength distributions of single crystal silicon and polysilicon measured from micro-specime...
MEMS are often exposed to accidental shocks during service, specially when mounted on portable devic...
<p>Mechanical strength of components increases as their size decreases. Optimum design of reliable s...
Shock-induced failure of polysilicon MEMS is investigated by adopting a multi-scale approach. To und...
The Young's modulus and strength of polysilicon specimens manufactured in the same production run we...
A new MEMS for on-chip mechanical testing of 0.7 µm thick polysilicon film has been designed, modell...
The safe, secure and reliable application of Microelectromechanical Systems (MEMS) devices requires ...
The issue of mechanical characterization of polysilicon used in Micro Electro Mechanical Systems (M...
Designing reliable MEMS structures presents numerous challenges. Polycrystalline silicon fractures i...
Experimentation at the micron level requires specific tools and methods. It will be illustrated how ...