Interpenetrating Polymer Networks and Related Materials [E-Book] / by L. H. Sperling.
To the surprise of practically no one, research and engineering on multi polymer materials has steadily increased through the 1960s and 1970s. More and more people are remarking that we are running out of new monomers to polymerize, and that the improved polymers of the future will depend heavily o...
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Full text |
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Personal Name(s): | Sperling, L. H., author |
Imprint: |
Boston, MA :
Springer,
1981
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Physical Description: |
XI, 265 p. online resource. |
Note: |
englisch |
ISBN: |
9781468438307 |
DOI: |
10.1007/978-1-4684-3830-7 |
Subject (LOC): |
- 1. An Introduction to Polymer Networks and IPNs
- 1.1. On the Nature of a Crosslink
- 1.2. Definition of an Interpenetrating Polymer Network
- 1.3. Historical Development of IPNs
- 1.4. A Researcher’s Approach to IPNs
- Suggested Reading. Bibliography of Selected Polymer Books
- 2. Phase Separation and Mechanical Behavior of Multicomponent Polymer Systems
- 2.1. Introduction
- 2.2. Polymer I/Polymer II Incompatibility
- 2.3. Polymer/Polymer Phase Diagrams
- 2.4. Morphology of Two-Phased Systems
- 2.5. More Complex Materials
- 2.6. On Determining Phase Continuity
- 2.7. Mechanical Behavior of Two-Phased Systems
- 2.8. Applications of Polymer Blends, Grafts, and Blocks
- Suggested Reading. Recent Multicomponent Polymer Books
- 3. A Nomenclature for Multipolymer Systems
- 3.1. Existing Nomenclature
- 3.2. Introduction to the New System
- 3.3. Nomenclature in this Work
- 3.4. Abbreviations and Jargon
- Appendix 3.1. Examples of the Proposed Nomenclature
- Appendix 3.2. Relating the New System to the Old
- 4. Homo-IPNs as Model Networks
- 4.1. Polystyrene/Polystyrene IPNs
- 4.2. Development of Theory
- 4.3. Relative Network Continuity and Physical Crosslinks
- 5. Synthesis of IPNs and Related Materials
- 5.1. Introduction
- 5.2. Sequential IPNs
- 5.3. Latex Interpenetrating Elastomeric Networks (IENs)
- 5.4. Latex IPNs
- 5.5. Simultaneous Interpenetrating Networks (SINs)
- 5.6. AB-Crosslinked Polymers (ABCPs)
- 5.7. Thermoplastic IPNs
- 6. Morphology and Glass Transition Behavior
- 6.1. Introduction
- 6.2. Molecular Control of Morphology
- 6.3. Morphology via Optical Microscopy
- 6.4. Morphology via Transmission Electron Microscopy
- 6.5. Quantitative Expressions for Phase Domain Size
- 6.5.1. Block Copolymers and ABCPs
- 6.5.2. Sequential IPNs and Semi-IPNs
- 6.6. Induced Morphological Changes
- 6.7. Physical and Glass Transition Behavior
- 6.8. Transition Layer Thickness
- 6.9. Phase Continuity Evaluation via Modulus
- 6.10. The Interpenetration Problem
- 7. Engineering, Mechanical, and General Behavior
- 7.1. Introduction
- 7.2. Filled Interpenetrating Polymer Networks
- 7.3. Ultimate Behavior
- 7.4. Electrical and Barrier Properties
- 7.5. Ionically Charged IPNs
- 7.6. Gradient IPNs
- 7.7. Vulcanized Rubber/Rubber Blends
- 8. Actual or Proposed Applications
- 8.1. Reinforced Elastomers
- 8.2. Sheet Molding Compounds
- 8.3. Dynamically Partly Cured Thermoplastic Elastomer Blends
- 8.4. Use of Graded Rubber Latexes with Surface Functionality in Thermosets
- 8.5. Dental Fillings
- 8.6. Graft Copolymerization onto Leather
- 8.7. Thermoplastic IPNs
- 8.8. Noise- and Vibration-Damping Materials
- 8.9. Coatings and Adhesives
- 8.10. Miscellaneous IPN Patents and Studies
- 8.11. Summary of Applications
- Annotated Bibliography.