The measurement of the mechanical properties of submicron sized specimens is extremely challenging due to difficulties for manipulating samples, for applying small load and for extracting accurate stresses and strains. A novel, versatile concept of micromachines has been developed to measure the mechanical response, up to large strains and fracture, of films, beams or tubes, with dimensions ranging between 10 to 1000 nm, allowing multiple loading configurations and geometries. This new concept relies on microfabrication techniques destined to the production of microelectronic devices and MEMS. The first idea is to use internal stresses to actuate and impose the load to the tested sample which is directly deposited on a patterned substrate. ...
A new technique was developed for studying the mechanical behavior of thin films on substrate applic...
With the advent of microtechnology over the last few decades, designs for new and innovative microsc...
The materials science field had known a lot of progress in the recent years and had gained a lot of ...
The measurement of the mechanical properties of submicron sized specimens is extremely challenging d...
International audienceThe measurement of the mechanical properties of materials with submicrometer d...
A novel, versatile concept of micromachines has been developed to measure the mechanical response of...
Robust design of micro-and nano-systems requires proper knowledge of the mechanical properties of th...
The mechanical properties measurement of materials with submicron dimensions is extremely challengin...
A new concept of micromachines has been developed for measuring the mechanical properties of thin me...
A new concept of micromachines has been developed for measuring the mechanical properties of thin me...
We have developed and tested the world’s smallest material testing system for the in situ mechanical...
The characterization and understanding of mechanical properties of nano-objects in the form of thin ...
The fi eld of in situ nanomechanics is greatly benefi ting from microelectromechanical systems (MEMS...
Mechanical tests of thin films require novel and sophisticated methods that can address the geometry...
Recent enhancements of a versatile on-chip MEMS-based method dedicated to the deformation and fractu...
A new technique was developed for studying the mechanical behavior of thin films on substrate applic...
With the advent of microtechnology over the last few decades, designs for new and innovative microsc...
The materials science field had known a lot of progress in the recent years and had gained a lot of ...
The measurement of the mechanical properties of submicron sized specimens is extremely challenging d...
International audienceThe measurement of the mechanical properties of materials with submicrometer d...
A novel, versatile concept of micromachines has been developed to measure the mechanical response of...
Robust design of micro-and nano-systems requires proper knowledge of the mechanical properties of th...
The mechanical properties measurement of materials with submicron dimensions is extremely challengin...
A new concept of micromachines has been developed for measuring the mechanical properties of thin me...
A new concept of micromachines has been developed for measuring the mechanical properties of thin me...
We have developed and tested the world’s smallest material testing system for the in situ mechanical...
The characterization and understanding of mechanical properties of nano-objects in the form of thin ...
The fi eld of in situ nanomechanics is greatly benefi ting from microelectromechanical systems (MEMS...
Mechanical tests of thin films require novel and sophisticated methods that can address the geometry...
Recent enhancements of a versatile on-chip MEMS-based method dedicated to the deformation and fractu...
A new technique was developed for studying the mechanical behavior of thin films on substrate applic...
With the advent of microtechnology over the last few decades, designs for new and innovative microsc...
The materials science field had known a lot of progress in the recent years and had gained a lot of ...