Fatigue of engineering plastics |
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Page 99
Since the modulus of elasticity would be expected to rise with decreasing test
temperature, the magnitude of the load associated with constant displacement
test conditions (employed by Kurobe and Wakashima) would be expected to
increase ...
Since the modulus of elasticity would be expected to rise with decreasing test
temperature, the magnitude of the load associated with constant displacement
test conditions (employed by Kurobe and Wakashima) would be expected to
increase ...
Page 109
... Commercial sheet extruded Decrease [60, 108] PC Commercial sheet
extruded Decrease [21] ABS Commercial sheet extruded Decrease [60] PSF
Commercial sheet extruded Decrease [60] PPO/HIPS Commercial sheet
extruded Decrease ...
... Commercial sheet extruded Decrease [60, 108] PC Commercial sheet
extruded Decrease [21] ABS Commercial sheet extruded Decrease [60] PSF
Commercial sheet extruded Decrease [60] PPO/HIPS Commercial sheet
extruded Decrease ...
Page 129
The decrease in Tg in this range of water content has been attributed to the
breaking of hydrogen bonds between amide groups and the formation of water
bridges between them [52, 153]. Paradoxically, at the same time that the
hydrogen ...
The decrease in Tg in this range of water content has been attributed to the
breaking of hydrogen bonds between amide groups and the formation of water
bridges between them [52, 153]. Paradoxically, at the same time that the
hydrogen ...
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Contents
Fatigue Crack Propagation | 74 |
Fatigue Fracture Micromechanisms in Engineering Plastics | 146 |
Composite Systems | 184 |
Copyright | |
2 other sections not shown
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Common terms and phrases
adhesive amplitude ASTM ASTM STP Beardmore Bucknall carbon cfrp component Composite Materials composites constant crack growth rates crack length crack tip craze crystalline cyclic loading da/dN decrease deformation discontinuous growth bands discussed ductile effect elastic elastic modulus energy epoxy fatigue behavior fatigue crack growth fatigue crack propagation fatigue failure fatigue fracture fatigue tests FCP behavior FCP rates fibers flaw fracture mechanics fracture surface fracture toughness frequency sensitivity hysteresis hysteretic heating increase J. A. Manson Kambour laminates loading cycles M. D. Skibo material matrix mean stress modulus molecular weight notched nylon 66 plastic zone PMMA polyacetal polycarbonate polymeric solids polystyrene properties PVDF R. W. Hertzberg Rabinowitz rubber S-N curve samples Section semicrystalline shown in Fig specimen spherulite static stress intensity factor stress level striation studies temperature rise tensile test frequency thermal failure tion toughening unnotched values viscoelastic yield strength
Bibliographic information
| Title | Fatigue of engineering plastics |
| Authors | Richard W. Hertzberg, John A. Manson |
| Contributor | John A. Manson |
| Edition | illustrated |
| Publisher | Academic Press, 1980 |
| Original from | the University of Michigan |
| Digitized | 30 Nov 2007 |
| ISBN | 0123435501, 9780123435507 |
| Length | 295 pages |
| Subjects | › Plastics Plastics - Fatigue Technology & Engineering / Engineering (General) Technology & Engineering / General Technology & Engineering / Materials Science |
| Export Citation | BiBTeX EndNote RefMan |