Adhesion of Polymers
by: Roman A. Veselovsky, Vladimir Kestelman
Abstract: Current applications for bonding and sealing are expensive and time-consuming. Adhesion of Polymers presents a state-of-the-art method for improving bonds and sealing strength between different materials underwater and in the human body. This time- and cost-efficient technology will allow engineers to create or repair stronger seals in underwater pipes, repair ships at sea, even bond and seal tissues in the body.
Full details
Table of Contents
- A. Preface
- 1. The Process of Adhesive-Bonded Joint Formation
- 2. Adhesive Properties Control by Surface-Active Substances
- 3. Properties of Adhesives Based on Polymeric Mixtures
- 4. Internal Stresses in Adhesive-Bonded Joints and Ways of Decreasing Them
- 5. Cementing and Operation of Adhesive-Bonded Joints in Liquid Media
- 6. Adhesion and Molecular Mobility of Filled Polymers
- 7. Criteria of Adhesive Joint Strength
- 8. Control of Polymer Properties for Impregnation of Porous Materials
- 9. Practical Applications of Polymer Adhesion Studies
- A. References
- B. About the Authors
Tools & Media
Expanded Table of Contents
-
A.
Preface
-
1.
The Process of Adhesive-Bonded Joint Formation
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2.
Adhesive Properties Control by Surface-Active Substances
- Alteration of Properties of Polymeric Composites under the Influence of Surface-Active Substances
- Colloid-Chemical Properties of Surfactants in Heterochain Oligomers
- Surface Tension of Heterochain Oligomers with Surfactant Additives
- Surface Tension of Curing Oligomers
- Effect of Surface-Active Substances on the Thermodynamic and Physical-Chemical Properties of Solid Polymers
- Oligomer–Metal Interphase Tension
- Control of Polymer Adhesion Strength by Means of Surfactant
- Influence of Surfactants on the Structure of Polymers
- 3. Properties of Adhesives Based on Polymeric Mixtures
- 4. Internal Stresses in Adhesive-Bonded Joints and Ways of Decreasing Them
- 5. Cementing and Operation of Adhesive-Bonded Joints in Liquid Media
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6.
Adhesion and Molecular Mobility of Filled Polymers
- Control of Polymer-to-Solid Surface Adhesive Bond Strength by Addition of Fillers
- Influence of the Molecular Size of the Filler Surface Modifier on the Strength of Adhesive Bonds with Solid Substrates and the Molecular Mobility of the Filled Polyurethane
- Molecular Mobility in Filled Polyurethanes and Their Adhesion Properties at Different Filler Concentrations
- Influence of Aerosil Modification on the Aggregation of Particles in Oligomer Medium
- Structure of the Filled Polyurethane Interphase Layer at the Metal Substrate Boundary
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7.
Criteria of Adhesive Joint Strength
- Adhesive Joint Strength under Combined Action of Various Stresses
- Analysis of Strength Criteria as Applied to Adhesive Joints
- Applicability of the Limiting Stressed States Theories for Materials Unequally Resistant to Tension and Compression
- Analysis of Design and Experimental Diagrams of the Limiting Stressed State
- 8. Control of Polymer Properties for Impregnation of Porous Materials
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9.
Practical Applications of Polymer Adhesion Studies
- Adhesives for In-situ Maintenance and Repair Work
- Manufacture of Pressware from Cellulose-Containing Materials
- Adhesive for FixingOrganic Soft Tissues: KL-3
- Cyanoacrylate Adhesive
- Use of Polymer Compositions for Nuclear Energy Applications
- Quality Enhancement for Articles Made of Porous Materials
- Brick and Concrete Paints
- Manufacture of Floors
- Manufacture of Heat Insulation Panels
- Strengthening and Sealing of Rocks
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A.
References
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B.
About the Authors
Book Details
Title: Adhesion of Polymers
Publisher: McGraw-Hill: New York, Chicago, San Francisco, Lisbon, London, Madrid, Mexico City, Milan, New Delhi, San Juan, Seoul, Singapore, Sydney, Toronto
Copyright / Pub. Date: 2002 The McGraw-Hill Companies, Inc.
ISBN: 9780071370455
Authors:
Roman A. Veselovsky is the author of this McGraw-Hill Professional publication.
Vladimir Kestelman is the author of this McGraw-Hill Professional publication.
Description: Current applications for bonding and sealing are expensive and time-consuming. Adhesion of Polymers presents a state-of-the-art method for improving bonds and sealing strength between different materials underwater and in the human body. This time- and cost-efficient technology will allow engineers to create or repair stronger seals in underwater pipes, repair ships at sea, even bond and seal tissues in the body.
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