Atomic, Molecular, Nuclear, Particle and Plasma Physics
true
beam effects
state physics
fracture mechanics methods
matter physics
fracture mechanics
sintering
book
modern fracture mechanics
sophisticated methods
https://doi.org/10.1007/978-94-017-2262-9
1997
nucleation
solid matter physics
defect nucleation
1997-01-01
mathematical model
en
effect
thesis
model
solid state physics
978-90-481-4794-6
growth
emission
cracks
experimental physics
physics
mechanics
PhD thesis
978-94-017-2262-9
method
process
text
mathematical physics
solids
course
MSCs
level courses
open problem
manner
important phenomenon
topic
mechanics of solids
supplementary text
adhesion
equations
monograph
problem
phenomenon
Methods of Fracture Mechanics: Solid Matter Physics
levels
books
graduate-level course
mechanics method
https://scigraph.springernature.com/explorer/license/
such processes
special courses
Modern fracture mechanics considers phenomena at many levels, macro and micro; it is therefore inextricably linked to methods of theoretical and mathematical physics. This book introduces these sophisticated methods in a straightforward manner. The methods are applied to several important phenomena of solid state physics which impinge on fracture mechanics: adhesion, defect nucleation and growth, dislocation emission, sintering, the electron beam effect and fractal cracks. The book shows how the mathematical models for such processes may be set up, and how the equations so formulated may be solved and interpreted. The many open problems which are encountered will provide topics for MSc and PhD theses in fracture mechanics, and in theoretical and experimental physics. As a supplementary text, the book can be used in graduate level courses on fracture mechanics, solid matter physics, and mechanics of solids, or in a special course on the application of fracture mechanics methods in solid matter physics.
straightforward manner
applications
dislocation emission
electron beam effects
2022-01-01T19:05
fractal crack
Springer Nature
doi
10.1007/978-94-017-2262-9
Cherepanov
G. P.
College of Engineering and Design, Florida International University, Miami, USA
College of Engineering and Design, Florida International University, Miami, USA
Springer Nature - SN SciGraph project
Physical Sciences
pub.1047581195
dimensions_id