Fatigue of Engineering Plastics |
From inside the book
Results 1-3 of 36
Page 17
At first ( region I ) bonds are stretched and energy is stored in a quite reversible
manner ( Hookean elasticity , linear viscoelasticity ) . As the stress rises further ,
the response ( region II ) becomes nonlinear ; energy is still recoverable on ...
At first ( region I ) bonds are stretched and energy is stored in a quite reversible
manner ( Hookean elasticity , linear viscoelasticity ) . As the stress rises further ,
the response ( region II ) becomes nonlinear ; energy is still recoverable on ...
Page 162
For example , it is generally found , at least in homogeneous amorphous
polymers , that the discontinuous crack growth bands are restricted to the mirror
region of the fracture surface . This correlation holds both in precracked and
unnotched ...
For example , it is generally found , at least in homogeneous amorphous
polymers , that the discontinuous crack growth bands are restricted to the mirror
region of the fracture surface . This correlation holds both in precracked and
unnotched ...
Page 179
They observed in region III of the fatigue process in PS ( see Fig . 2 . 19c ) that the
initial part of the fracture surface was relatively featureless with the exception of a
series of crack arrest lines , which they interpreted as being individual fatigue ...
They observed in region III of the fatigue process in PS ( see Fig . 2 . 19c ) that the
initial part of the fracture surface was relatively featureless with the exception of a
series of crack arrest lines , which they interpreted as being individual fatigue ...
What people are saying - Write a review
We haven't found any reviews in the usual places.
Contents
Fatigue Crack Propagation | 74 |
Fatigue Fracture Micromechanisms in Engineering Plastics | 146 |
Composite Systems | 184 |
Copyright | |
2 other sections not shown
Other editions - View all
Common terms and phrases
addition applied associated bands behavior changes component composites constant corresponding crack growth rate crack tip craze curve cycles cyclic da/dN damage decrease deformation depend discontinuous discussed effect energy engineering examined example exist expected experiments fact factor failure fatigue crack fatigue crack propagation FCP rates fibers fracture fracture surface frequency function given greater higher important increase initial involving J. A. Manson limits loading lower material matrix mean mechanical metals modulus molecular notched noted nylon 66 observed occur plastic PMMA polymeric polymers polystyrene possible properties R. W. Hertzberg range region relationship relative reported resistance respect response rise rubber samples sensitivity shear showed significant similar Skibo solids specimen static strain strength stress stress intensity striations structure studies temperature thermal tion toughness values volume yield York zone
Bibliographic information
| Title | Fatigue of Engineering Plastics |
| Authors | Richard W. Hertzberg, John A. Manson |
| Edition | 2, illustrated |
| Publisher | Academic Press, 1980 |
| Original from | the University of Michigan |
| Digitized | 30 Nov 2007 |
| ISBN | 0123435501, 9780123435507 |
| Length | 295 pages |
| Subjects | › Technology & Engineering / General |
| Export Citation | BiBTeX EndNote RefMan |