An organoferroelasticity driven by molecular conformational change
SH Mir, Y Takasaki, S Takamizawa - Physical Chemistry Chemical …, 2018 - pubs.rsc.org
An organoferroelasticity driven by molecular conformational change - Physical Chemistry
Chemical Physics (RSC Publishing) DOI:10.1039/C7CP07206F Royal Society of Chemistry View …
Chemical Physics (RSC Publishing) DOI:10.1039/C7CP07206F Royal Society of Chemistry View …
3D flexible frequency selective surface with stable electromagnetic transmission properties
Frequency selective surfaces (FSS) that can be tightly laminated to complex
nondevelopable surfaces have a wide range of applications in many engineering areas …
nondevelopable surfaces have a wide range of applications in many engineering areas …
An in situ TEM study of the size effect on the thermally induced martensitic transformation in nanoscale NiTi shape memory alloy
This in situ TEM study investigated the effect of sample thickness on the martensitic
transformation of NiTi. The transformation temperature gradually decreased with decreasing …
transformation of NiTi. The transformation temperature gradually decreased with decreasing …
Metal [100] nanowires with negative Poisson's ratio
When materials are under stretching, occurrence of lateral contraction of materials is
commonly observed. This is because Poisson's ratio, the quantity describes the relationship …
commonly observed. This is because Poisson's ratio, the quantity describes the relationship …
A modification on Brook formula in calculating the misfit of Ni-based superalloys
The validity of the Brooke formula in estimating the lattice misfit based on dislocation
network structure in Ni-based superalloys is investigated. The misfit value of a sample …
network structure in Ni-based superalloys is investigated. The misfit value of a sample …
Negative thermal expansion of ultrathin metal nanowires: a computational study
Most materials expand upon heating because the coefficient of thermal expansion (CTE),
the fundamental property of materials characterizing the mechanical response of the …
the fundamental property of materials characterizing the mechanical response of the …
A novel approach to finding mechanical properties of nanocrystal layers
Flexible, bendable, stretchable devices represent the future of electronics for a wide range of
real-world applications. Due to the fact that these technologies deviate significantly from …
real-world applications. Due to the fact that these technologies deviate significantly from …
Individual Boron Nanowire Has Ultra-High Specific Young's Modulus and Fracture Strength As Revealed by in Situ Transmission Electron Microscopy
Boron nanowires (BNWs) may have potential applications as reinforcing materials because
B fibers are widely known for their excellent mechanical performance. However until now …
B fibers are widely known for their excellent mechanical performance. However until now …
Revealing ultralarge and localized elastic lattice strains in Nb nanowires embedded in NiTi matrix
Freestanding nanowires have been found to exhibit ultra-large elastic strains (4 to 7%) and
ultra-high strengths, but exploiting their intrinsic superior mechanical properties in bulk forms …
ultra-high strengths, but exploiting their intrinsic superior mechanical properties in bulk forms …
In situ SEM electromechanical characterization of nanowire using an electrostatic tensile device
H Zeng, T Li, M Bartenwerfer, S Fatikow… - Journal of Physics D …, 2013 - iopscience.iop.org
This paper presents a method for simultaneously performing mechanical tensile test and
electrical test on nanowire in SEM. For this purpose, an electrostatic tensile device is …
electrical test on nanowire in SEM. For this purpose, an electrostatic tensile device is …