A review of microelectromechanical systems for nanoscale mechanical characterization
A plethora of nanostructures with outstanding properties have emerged over the past
decades. Measuring their mechanical properties and understanding their deformation …
decades. Measuring their mechanical properties and understanding their deformation …
Mechanics of crystalline nanowires: an experimental perspective
Y Zhu - Applied Mechanics Reviews, 2017 - asmedigitalcollection.asme.org
A wide variety of crystalline nanowires (NWs) with outstanding mechanical properties have
recently emerged. Measuring their mechanical properties and understanding their …
recently emerged. Measuring their mechanical properties and understanding their …
[HTML][HTML] Reduced order modeling of parametrized systems through autoencoders and SINDy approach: continuation of periodic solutions
Highly accurate simulations of complex phenomena governed by partial differential
equations (PDEs) typically require intrusive methods and entail expensive computational …
equations (PDEs) typically require intrusive methods and entail expensive computational …
A thermal actuator for nanoscale in situ microscopy testing: design and characterization
This paper addresses the design and optimization of thermal actuators employed in a novel
MEMS-based material testing system. The testing system is designed to measure the …
MEMS-based material testing system. The testing system is designed to measure the …
Frequency combs in a MEMS resonator featuring 1: 2 internal resonance: ab initio reduced order modelling and experimental validation
This paper is devoted to a detailed analysis of the appearance of frequency combs in the
dynamics of a micro-electro-mechanical systems (MEMS) resonator featuring 1: 2 internal …
dynamics of a micro-electro-mechanical systems (MEMS) resonator featuring 1: 2 internal …
Design and operation of a MEMS-based material testing system for nanomechanical characterization
In situ mechanical characterization of nanostructures, such as carbon nanotubes and
metallic nanowires, in scanning and transmission electron microscopes is essential for the …
metallic nanowires, in scanning and transmission electron microscopes is essential for the …
A resonant microaccelerometer with high sensitivity operating in an oscillating circuit
C Comi, A Corigliano, G Langfelder… - Journal of …, 2010 - ieeexplore.ieee.org
A new micromachined uniaxial silicon resonant accelerometer characterized by a high
sensitivity and very small dimensions is presented. The device's working principle is based …
sensitivity and very small dimensions is presented. The device's working principle is based …
Deep learning‐based reduced order models for the real‐time simulation of the nonlinear dynamics of microstructures
We propose a non‐intrusive deep learning‐based reduced order model (DL‐ROM) capable
of capturing the complex dynamics of mechanical systems showing inertia and geometric …
of capturing the complex dynamics of mechanical systems showing inertia and geometric …
Reduced order modeling of nonlinear microstructures through proper orthogonal decomposition
Abstract We apply the Proper Orthogonal Decomposition (POD) method for the efficient
simulation of several scenarios undergone by Micro-Electro-Mechanical-Systems, involving …
simulation of several scenarios undergone by Micro-Electro-Mechanical-Systems, involving …
Reduced order modeling of nonlinear vibrating multiphysics microstructures with deep learning-based approaches
Micro-electro-mechanical-systems are complex structures, often involving nonlinearites of
geometric and multiphysics nature, that are used as sensors and actuators in countless …
geometric and multiphysics nature, that are used as sensors and actuators in countless …