Brill E-Books
Low-Temperature Behaviour of Elastomers
Contents
-
- Preliminary Material (i-2) (100K)
- Introduction (3-10) (64K)
- Glass Transition Of Elastomers (11-42) (223K)
- Mechanical Properties Of Elastomers Near The Glass Transition Temperature (43-58) (168K)
-
Crystallization Of Elastomers At Low Temperatures
(59-96)
(306K)
- Jump to section:
- 3.1 Methods Of Crystallization Studies
- 3.2 Modern Views Of Crystallization
- 3.3 Effect Of Mechanical Action And Other Factors On Crystallization
- 3.4 Effect Of The Molecular Parameters Of Rubbers And The Composition Of Rubber Compounds On Crystallization
- 3.5 Microcrystallization
- 3.6 Prediction Of The Crystallization Rate
- Stress-Induced Crystallization Of Elastomers (97-114) (183K)
- Strength Properties Of Elastomers At Low Temperatures (115-124) (130K)
-
Contribution Of Crystallization And Glass Transition To Low-Temperature Resistance Of Elastomers
(125-136)
(127K)
- Jump to section:
- 6.1 Mutual Interaction Of Crystallization And Glass Transition
- 6.2 The Ratio Of The Contributions By Crystallization And Glass Transition To The Low-Temperature Resistance Of Elastomers
- 6.3 Low-Temperature Resistance Of Rubber Articles
- 6.4 Effect Of Repeated Exposure To Low Temperatures On The Performance Of Rubber Articles
-
Low-Temperature Resistance Specifics Of Particular Elastomers
(137-156)
(159K)
- Jump to section:
- 7.1 Styrene-Butadiene Rubbers
- 7.2 Butadiene Acrylonitrile Rubbers
- 7.3 Isoprene Rubbers
- 7.4 Butadiene Rubbers
- 7.5 Chloroprene Rubbers
- 7.6 Butyl Rubber
- 7.7 Silicon Rubbers
- 7.8 Urethane Rubbers
- 7.9 Thiocol Rubbers
- 7.10 Fluoroelastomers
- 7.11 Acrylate Rubbers
- 7.12 Ethylene-Propylene Rubbers
- 7.13 Epoxide Rubbers
- 7.14 Polypentenomers
- 7.15 Alternating Rubbers
- References (157-182) (202K)
- Subject Index (183-188) (65K)
