Small Scale Deformation using Advanced Nanoindentation Techniques

Small Scale Deformation using Advanced Nanoindentation Techniques

Small scale mechanical deformations have gained a significant interest over the past few decades, driven by the advances in integrated circuits and microelectromechanical systems. One of the most powerful and versatile characterization methods is the nanoindentation technique. The capabilities of th...

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Bibliographic Details
Main Author: Tsui, Ting (auth)
Other Authors: Volinsky, Alex A. (auth)
Format: Electronic Book Chapter
Language:English
Published: MDPI - Multidisciplinary Digital Publishing Institute 2019
Subjects:
Technology: general issues
n/a
nanoscale
fracture toughness
helium irradiation
cement paste
solder
fracture
Pop-in
fatigue
strain rate sensitivity
viscoelasticity
nuclear fusion structural materials
biomaterials
transmission electron microscopy
mammalian cells
quasicontinuum method
brittleness and ductility
morphology
creep
dimensionless analysis
size effect
mechanical properties
hardness
shear transformation zone
TSV
micro-cantilever beam
multiscale
InP(100) single crystal
surface pit defect
mixed-mode
micromechanics
soft biomaterials
metallic glass
atomic force microscopy (AFM)
Bi2Se3 thin films
constitutive model
pop-in
rate factor
FIB
nickel
nanoindenter
miniaturized cantilever beam
hydrogen embrittlement
nanoindentation
irradiation hardening
reduced activation ferritic martensitic (RAFM) steels
tantalum
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Description
Summary:Small scale mechanical deformations have gained a significant interest over the past few decades, driven by the advances in integrated circuits and microelectromechanical systems. One of the most powerful and versatile characterization methods is the nanoindentation technique. The capabilities of these depth-sensing instruments have been improved considerably. They can perform experiments in vacuum and at high temperatures, such as in-situ SEM and TEM nanoindenters. This allows researchers to visualize mechanical deformations and dislocations motion in real time. Time-dependent behavior of soft materials has also been studied in recent research works. This Special Issue on ""Small Scale Deformation using Advanced Nanoindentation Techniques""; will provide a forum for researchers from the academic and industrial communities to present advances in the field of small scale contact mechanics. Materials of interest include metals, glass, and ceramics. Manuscripts related to deformations of biomaterials and biological related specimens are also welcome. Topics of interest include, but are not limited to:
Physical Description:1 electronic resource (168 p.)
ISBN:books978-3-03897-967-8
9783038979661
9783038979678
Access:Open Access

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