Synthesis and modelling of the mechanical properties of Ag, Au and Cu nanowires
NAC Lah, S Trigueros - Science and technology of advanced …, 2019 - Taylor & Francis
The recent interest to nanotechnology aims not only at device miniaturisation, but also at
understanding the effects of quantised structure in materials of reduced dimensions, which …
understanding the effects of quantised structure in materials of reduced dimensions, which …
Advances in mechanical characterization of 1D and 2D nanomaterials: progress and prospects
MF Pantano, I Kuljanishvili - Nano express, 2020 - iopscience.iop.org
Last several decades have sparked a tremendous interest in mechanical properties of low
dimensional systems specifically 1D and 2D nanomaterials, in large, due to their remarkable …
dimensional systems specifically 1D and 2D nanomaterials, in large, due to their remarkable …
Plasticity of metal–organic framework glasses
Metal–organic framework (MOF) glasses provide new perspectives on many material
properties due to their unique chemical and structural nature. Their mechanical properties …
properties due to their unique chemical and structural nature. Their mechanical properties …
Dynamic plasticity and failure of microscale glass: Rate-dependent ductile–brittle–ductile transition
Glass has been recently envisioned as a stronger and more robust alternative to silicon in
microelectromechanical system applications, including high-frequency resonators and …
microelectromechanical system applications, including high-frequency resonators and …
Advanced microelectromechanical systems-based nanomechanical testing: beyond stress and strain measurements
The field of in situ nanomechanics is greatly benefiting from microelectromechanical
systems (MEMS) technology and integrated microscale testing machines that can measure a …
systems (MEMS) technology and integrated microscale testing machines that can measure a …
Anomalous high strain rate compressive behavior of additively manufactured copper micropillars
R Ramachandramoorthy, S Kalácska, G Poras… - Applied Materials …, 2022 - Elsevier
Microscale dynamic testing is vital to the understanding of material behavior at application
relevant strain rates. However, despite two decades of intense micromechanics research …
relevant strain rates. However, despite two decades of intense micromechanics research …
High strain rate in situ micropillar compression of a Zr-based metallic glass
R Ramachandramoorthy, F Yang, D Casari… - Journal of Materials …, 2021 - Springer
High strain rate micromechanical testing can assist researchers in elucidating complex
deformation mechanisms in advanced material systems. In this work, the interactions of …
deformation mechanisms in advanced material systems. In this work, the interactions of …
MEMS-based platforms for multi-physical characterization of nanomaterials: A review
Functional nanomaterials possess exceptional mechanical, electrical and thermal properties
which have significantly benefited their diverse applications to a variety of scientific and …
which have significantly benefited their diverse applications to a variety of scientific and …
Integrating in situ TEM experiments and atomistic simulations for defect mechanics
With recent advances in computational modeling and in situ transmission electron
microscopy (TEM) technologies, there have been increased efforts to apply these …
microscopy (TEM) technologies, there have been increased efforts to apply these …
Comparison of electrical sensing and image analysis for in situ transmission electron microscopy nanomechanical testing of thin films
An in situ transmission electron microscopy (TEM) microelectromechanical system (MEMS)
device has been designed to utilize TEM imaging for measuring stress and strain of thin film …
device has been designed to utilize TEM imaging for measuring stress and strain of thin film …