Complex inertial Micro Electro Mechanical Systems (MEMS) usually require the simultaneous motion of the masses in more than one direction and an overall linear behavior. Furthermore, since it is usually very difficult to actuate the device in all the required directions, complex spring configurations for the conversion of the motion are needed. Here we present possible solutions to this problem through auxetic structures. The goal of the work is to propose a new topology optimization procedure which can be used as a tool during the design phase of the optimal auxetic structure, that is completely compatible with the MEMS fabrication processes available so far and that allows the motion conversion in a MEMS device without entering the nonli...
We are applying tools from computational topology and combinatorial geometry in our investigation of...
The present work is dedicated to the application of topology optimization in the multiphysic field o...
Nowadays, the development of micromechatronics systems requires the integration of a set of function...
Complex inertial Micro Electro Mechanical Systems (MEMS) usually require the simultaneous motion of ...
Auxetic materials are of interest because of enhanced material properties related to negative Poisso...
Summarization: The design of mechanical microstructures having auxetic behaviour is proposed in this...
Summarization: Microstructures can lead to homogeneous materials with negative Pois- son’s ratio, th...
In this paper, we propose a novel design and optimization environment for inertial MEMS devices base...
In this paper, we propose a novel design and optimization environment for inertial MEMS devices base...
Summarization: Designing micro-structures that lead to materials with negative Poisson’s ratio, the ...
Auxetic structures are attracting increasing interest because of their large variety of applications...
Summarization: The design of novel mechanical microstructures having auxetic behaviour is proposed i...
High-precision motion systems are crucial for many applications, such as in semiconductor equipment,...
In pursuit of better accuracy, higher speed and larger scale, manufacturers of high-performance devi...
International audienceThis paper reviews the primary research effortsconducted within the AS2M depar...
We are applying tools from computational topology and combinatorial geometry in our investigation of...
The present work is dedicated to the application of topology optimization in the multiphysic field o...
Nowadays, the development of micromechatronics systems requires the integration of a set of function...
Complex inertial Micro Electro Mechanical Systems (MEMS) usually require the simultaneous motion of ...
Auxetic materials are of interest because of enhanced material properties related to negative Poisso...
Summarization: The design of mechanical microstructures having auxetic behaviour is proposed in this...
Summarization: Microstructures can lead to homogeneous materials with negative Pois- son’s ratio, th...
In this paper, we propose a novel design and optimization environment for inertial MEMS devices base...
In this paper, we propose a novel design and optimization environment for inertial MEMS devices base...
Summarization: Designing micro-structures that lead to materials with negative Poisson’s ratio, the ...
Auxetic structures are attracting increasing interest because of their large variety of applications...
Summarization: The design of novel mechanical microstructures having auxetic behaviour is proposed i...
High-precision motion systems are crucial for many applications, such as in semiconductor equipment,...
In pursuit of better accuracy, higher speed and larger scale, manufacturers of high-performance devi...
International audienceThis paper reviews the primary research effortsconducted within the AS2M depar...
We are applying tools from computational topology and combinatorial geometry in our investigation of...
The present work is dedicated to the application of topology optimization in the multiphysic field o...
Nowadays, the development of micromechatronics systems requires the integration of a set of function...