At very small length-scales, we often see surprising scaling effects. Ants can carry hundreds of times their weight! Can you imagine a third grader carrying a car? In order to build micromachines that can exhibit similar behavior, we need to understand how materials behave at these small scales. Mechanical testing of nanoscale materials, such as those used in microelectronics, is almost impossible using conventional testing machines. Therefore, we need to build our own MEMS platforms for testing. The device shown here is deceptively simple. It can mechanically test tiny samples, with thickness as small as 1/500 of the diameter of a human hair, under bending. Building these machines is very challenging, both in design and fabrication. Soph...
In recent years, technological advances have significantly enhanced the capability to produce milli-...
The fi eld of in situ nanomechanics is greatly benefi ting from microelectromechanical systems (MEMS...
Micro-electromechanical systems (MEMS) are electrically controlled micro-machines which have been w...
At very small length-scales, we often see surprising scaling effects. Ants can carry hundreds of tim...
We have developed and tested the world’s smallest material testing system for the in situ mechanical...
With the advent of microtechnology over the last few decades, designs for new and innovative microsc...
Micro-electro-mechanical systems, MEMS, is a rapidly growing interdisciplinary technology within the...
Small-scale mechanical testing of materials has gained prominence in the last decade or so due to th...
Nowadays, mechanical designers and engineers of elastic structures at ultra-small scales face an int...
The progress of modern technologies has conditioned the development of new, multifunctional systems,...
The measurement of the mechanical properties of submicron sized specimens is extremely challenging d...
Nowadays, mechanical designers and engineers of elastic structures at ultra-small scales face an int...
Because of their higher surface / volume ratio, the mechanical behavior of micro-electro-mechanical ...
It’s a development of Mini Universal Testing Machine for Small Scale Materials that have a destructi...
The mechanical properties measurement of materials with submicron dimensions is extremely challengin...
In recent years, technological advances have significantly enhanced the capability to produce milli-...
The fi eld of in situ nanomechanics is greatly benefi ting from microelectromechanical systems (MEMS...
Micro-electromechanical systems (MEMS) are electrically controlled micro-machines which have been w...
At very small length-scales, we often see surprising scaling effects. Ants can carry hundreds of tim...
We have developed and tested the world’s smallest material testing system for the in situ mechanical...
With the advent of microtechnology over the last few decades, designs for new and innovative microsc...
Micro-electro-mechanical systems, MEMS, is a rapidly growing interdisciplinary technology within the...
Small-scale mechanical testing of materials has gained prominence in the last decade or so due to th...
Nowadays, mechanical designers and engineers of elastic structures at ultra-small scales face an int...
The progress of modern technologies has conditioned the development of new, multifunctional systems,...
The measurement of the mechanical properties of submicron sized specimens is extremely challenging d...
Nowadays, mechanical designers and engineers of elastic structures at ultra-small scales face an int...
Because of their higher surface / volume ratio, the mechanical behavior of micro-electro-mechanical ...
It’s a development of Mini Universal Testing Machine for Small Scale Materials that have a destructi...
The mechanical properties measurement of materials with submicron dimensions is extremely challengin...
In recent years, technological advances have significantly enhanced the capability to produce milli-...
The fi eld of in situ nanomechanics is greatly benefi ting from microelectromechanical systems (MEMS...
Micro-electromechanical systems (MEMS) are electrically controlled micro-machines which have been w...