High Pressure Surface Science and EngineeringYury Gogotsi, V. Domnich In many instances of mechanical interaction between two materials, the physical contact affects only the outermost surface layer, with little discernible influence on the bulk of the material. The resultant high pressures in these localised regimes can induce surface structural changes such as deformation, phase transformation and amorphization. |
Contents
5 | |
19 | |
21 | |
Molecular dynamics simulation of phase transformations in monocrystalline silicon | 57 |
Highpressure phases of group IV and IIIV semiconductors | 120 |
CONTINUUM MECHANICAL FUNDAMENTALS OF MECHANOCHEMISTRY | 159 |
Continuum mechanical fundamentals of mechanochemistry | 161 |
EXPERIMENTAL TECHNIQUES IN HIGHPRESSURE SURFACE SCIENCE | 293 |
Transmission electron microscopy | 366 |
EXPERIMENTAL STUDIES OF PHASE TRANSFORMATIONS INDUCED BY CONTACT LOADING | 379 |
Indentationinduced phase transformations in semiconductors | 381 |
Indentationinduced phase transformations in ceramics | 443 |
Zirconia ceramics Phase transitions and Raman microspectroscopy | 467 |
Phase transformations under dynamic loading | 521 |
DUCTILEREGIME MACHINING OF SEMICONDUCTORS AND CERAMICS | 541 |
Ductileregime machining of semiconductors and ceramics | 543 |
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anvil asperity atoms behaviour Berkovich brittle materials calculated chip thickness cm¹ compression contact area contact loading contact pressure crack crystal structure cubic decrease depth of cut diamond diffraction dislocation displacement ductile ductile-machining effect elastic elastic modulus electron energy equation equilibrium experimental film force fraction GaAs Gogotsi hardness high-pressure phase HPPT hydrostatic increase intensity interface kinetics laser lattice layer Lett load-displacement curve machining martensitic maximum mechanism metallic metastable modulus molecular dynamics monoclinic monoclinic phase nano-indentation nanometre nucleation observed obtained occurs parameters phase transformation phase transition phonon Phys pile-up plastic deformation plastic flow plastic strain radius rake angle Raman bands Raman spectra Raman spectroscopy reduced region rotation sample scratch shear stress shown in figure Si-I Si-XII simulation specimen surface temperature tetragonal thermal thermodynamic tool transformation strain transformation zone unloading Vickers indentation volume Wavenumber workpiece yield stress zincblende zirconia
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