Progress in Adhesion and Adhesives, Volume 3 E-Book

Contents

Cover

Title page

Copyright page

Preface

Chapter 1: Nanoparticles as Interphase Modifiers in Fiber Reinforced Polymeric Composites: A Critical Review

1.1 Introduction

1.2 Grown Interphases from Fiber Surfaces

1.3 Deposited Interphases

1.4 Self-assembled Interphases

1.5 Summary

Acknowledgments

List of Abbreviations (Alphabetized)

References

Chapter 2: Fabrication of Micro/Nano Patterns on Polymeric Substrates Using Laser Ablation Methods to Control Wettability Behaviour: A Critical Review

2.1 Introduction

2.2 Wetting States, Regimes, and Roughness

2.3 Laser Ablation: Experimental Setup

2.4 Laser Ablation of Polymeric Surfaces

2.5 Summary

References

Chapter 3: Plasma Processing of Aluminum Alloys to Promote Adhesion: A Critical Review

3.1 Introduction

3.2 Plasma Processing of Aluminum for Improved Wettability and Adhesion

3.3 Plasma Processing of Aluminum Alloy for Improved Corrosion Resistance

3.4 Plasma Processing of Aluminum Alloy for Improved Bond Strength

3.5 Plasma Processing of Aluminum Alloy for Enhanced Tribological and Mechanical Performance

3.6 Summary

References

Chapter 4: UV-Curing of Adhesives: A Critical Review

4.1 Introduction

4.2 Basics of Radiation Curing

4.3 UV-Curing for the Production of Adhesives

4.4 Adhesives Obtained by a Single Direct UV-Curing Step

4.5 Adhesives Obtained by a Dual-Cure Process

4.6 Photocurable Adhesives for Medical Applications

4.7 Light-Induced Reversible Bonding/Debonding

4.8 Summary

References

Chapter 5: Stress and Failure Analyses of Functionally Graded Adhesively Bonded Joints of Laminated FRP Composite Plates and Tubes: A Critical Review

5.1 Introduction

5.2 Stress Analysis of Adhesively Bonded Joints

5.3 Failure Analysis of Adhesively Bonded Joints of Laminated FRP Composite Plates

5.4 Failure Analysis of Adhesively Bonded Tubular Joints of Laminated FRP Composites

5.5 Failure Analysis of Functionally Graded Bonded Joints

5.6 Summary

References

Chapter 6: Adhesion Between Unvulcanized Elastomers: A Critical Review

6.1 Introduction

6.2 Autohesive Tack

6.3 Self - Healing Elastomers: Future Scope Based on Tack Behavior of Elastomers

6.4 Summary

Acknowledgements

List of Symbols

List of Abbreviations

References

Chapter 7: Dielectrowetting for Digital Microfluidics: Principle and Application. A Critical Review

7.1 Introduction

7.2 Electrostatic Forces on a Liquid

7.3 Electrowetting on Dielectric (EWOD)

7.4 Liquid-Dielectrophoresis (L-DEP)

7.5 L-DEP in Microfluidics

7.6 Dielectrowetting

7.7 Droplet Manipulations by Dielectrowetting

7.8 Concluding Remarks and Outlook

7.9 Acknowledgement

References

Chapter 8: Control of Biofilm at the Tooth-Restoration Bonding Interface: A Question for Antibacterial Monomers? A Critical Review

8.1 Introduction

8.2 Tooth-Restoration Bonding Interface Failure: The Bacterial Factor

8.3 Mechanism of Adhesive-Bacteria Interaction

8.4 Current Antibacterial Approaches via Components of Tooth/Restoration Interface Bonding Materials (Dental Primers and Adhesives)

8.5 Incorporation of Quaternary Ammonium-Based Monomers and its Impact on the Mechanical Properties

8.6 Long-Lasting Antibacterial Activity

8.7 Biocompatibility

8.8 Limitations

8.9 Prospects

8.10 Summary

References

Chapter 9: Easy-to-Clean Superhydrophobic Coatings Based on Sol-Gel Technology: A Critical Review

9.1 Introduction

9.2 Superhydrophobicity: Key Concepts

9.3 Sol-Gel Process

9.4 Summary

Acknowledgement

List of Abbreviations

References

Chapter 10: Cyanoacrylates: Towards High Temperature Resistant Instant Adhesives. A Critical Review

10.1 Introduction

10.2 Industrial Production of Cyanoacrylates

10.3 Reactivity and Polymerisation of Cyanoacrylates

10.4 Durability and Degradation of Polycyanoacrylate Polymers

10.5 Strategies to Improve Thermal Durability

10.6 Summary

Acknowledgements

References

Chapter 11: Strategies to Inactivate the Endogenous Dentin Proteases to Promote Resin-Dentin Bond Longevity in Adhesive Dentistry: A Critical Review

11.1 Introduction

11.2 Enzymes in Dentin

11.3 Enzymes Inactivation/Collagen Cross-Linking

11.4 Clinical Considerations

11.5 Summary

Acknowledgment

References

Chapter 12: Effects of Nanoparticles on Nanocomposites Mode I and II Fracture: A Critical Review

12.1 Introduction

12.2 Energy Release Rate

12.3 Traction-Separation Laws

12.4 Effect of Nanoparticles on Mode I and II Fracture

12.5 Traction – Separation laws in Mode I and II (Case Study)

12.6 Summary

Acknowledgement

Nomenclature

References

End User License Agreement

Guide

Cover

Copyright

Contents

Begin Reading

List of Tables

Chapter 1

Table 3.1

Composition of atmospheric plasma deposited films [25].

Chapter 4

Table 4.1

Cure time comparison for a thiol-ene polymer.

Table 4.2

Comparison of different technologies for making a PSA.

Table 4.3

Approaches and solutions for the best shelf-stability and curing efficiency of adhesives.

Chapter 5

Table 5.1

Dimensions of tee joint [121].

Chapter 6

Table 6.1

Experimental values of dispersion, γ

S

P

and polar, γ

S

P

components [116].

Table 6.2

Τ

g

, Tan δ, M

e

, terminal relaxation time (τ

te

), self-diffusion coefficient (D) and monomer friction coefficient (ζ

0

) values of B and BIMS/tackifier blends [116].

Table 6.3

Effect of tackifier on the viscoelastic properties of EPDM rubber [123].

Table 6.4

Monomer friction coefficient (ζ

0

), terminal relaxation time (τ

te

), and self-diffusion coefficient (D) values of EP, EP

g

HC8, EP

g

HC24, EP

g

CI8, and EP

g

CI24 [123].

Table 6.5

Effect of nanoclay on the viscoelastic properties of the BIMS rubber [126].

Table 6.6

Terminal relaxation time (τ

te

), self-diffusion coefficient (D) and monomer friction coefficient (ζ

0

) values of B, BSEP8 and BSEP16 [126].

Table 6.7

Effect of nanoclay on the viscoelastic properties of the BIMS rubber [127].

Table 6.8

Terminal relaxation time (t

te

), self-diffusion coefficient (D) and monomer friction coefficient (ζ

0

) values of B and BCLNA16 [127].

Table 6.9

Effect of nanoclay on the viscoelastic properties of the EPDM rubber [128].

Table 6.10

Terminal relaxation time (

τ

te

), self-diffusion (D), and monomer friction coefficient (ζ

0

) values of EP, EPNA4 and EPNA8 [128]. *

Chapter 7

Table 7.1

Eleven Different combinations between droplet liquids and surrounding fluids examined against Eq. (7.26) [37]. TMPGE stands for trimethylolpropane triglycidyl ether.

Table 7.2

Comparison among EWOD, L-DEP and dielectrowetting.

Chapter 8

Table 8.1

The major factors compromising the durability of the tooth-restoration bonding interface.

Table 8.2

Description of different synthetic quaternary ammonium monomers incorporated into dental primers and adhesives.

Chapter 9

Table 9.1

Chemical structures of materials cited in this review.

Table 9.2

CA, SA and maximum frictional force as a function of VTMS/TEOS molar ratio [49].

Table 9.3

CA, SA and maximum frictional force as a function of TMES/TEOS molar ratio [80].

Chapter 10

Table 10.1

Glass transition temperature (Tg) values of common cyanoacrylate esters.

Table 10.3

Tensile shear strengths after heat aging at 121 °C for naphthosultone containing, and control (zero naphthosultone) adhesive formulations tested at RT and 121 °C.

Chapter 11

Table 11.1

Different crosslinking agents: their action, effect on bond interface, and type.

Chapter 12

Table 12.1

Parameters for Data Reduction Methods in Mode I Fracture [16].

Table 12.2

Parameters for Data Reduction Methods in Mode II.

Table 12.3

Effect of Nanoparticles on the Lap Shear Strength of Different Adhesive Joints.

Table 12.4

Effect of Nanoparticles on the Peel Strength of Different Adhesive Joints.

Table 12.5

Effect of Nanoparticles on Mode I Fracture Toughness (G

IC

).

Table 12.6

Experimental Bridging Law Parameters for Fracture Mode I [27].

Table 12.7

Experimental Bridging Law Parameters for Fracture Mode II.

Table 12.8

Mechanical Properties of Epoxy Nanocomposites Samples.

Table 12.9

Coefficients of Fitted Function and ERR Parameters for Mode I – DCB test.

Table 12.10

Experimental Bridging Law Parameters for Mode I- DCB.

Table 12.11

Experimental Bridging Law Parameters for Mode II Fracture - ENF.

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Scrivener Publishing100 Cummings Center, Suite 541JBeverly, MA 01915-6106

Publishers at ScrivenerMartin Scrivener ([email protected])Phillip Carmical ([email protected])

Progress in Adhesion and Adhesives

Volume 3

Edited by

This edition first published 2018 by John Wiley & Sons, Inc., 111 River Street, Hoboken, NJ 07030, USA and Scrivener Publishing LLC, 100 Cummings Center, Suite 541J, Beverly, MA 01915, USA© 2018 Scrivener Publishing LLC

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Library of Congress Cataloging-in-Publication Data

ISBN 978-1-119-52629-2

Preface

The current book constitutes Volume 3 in the series “Progress in Adhesion and Adhesives”. Volume 2 was based on 14 critical, concise, illuminating and thought-provoking review articles published initially in 2016 in the journal Reviews of Adhesion and Adhesives(RAA) by an assemblage of active, illustrious and internationally renowned subject matter experts within the broad purview of Adhesion Science and Adhesive Technology. The premier Volume 1 (although we did not label it as Volume 1 as at that time we had no concrete plans for future volumes) in this vein was a result of 13 review articles which were originally published in RAA in the year 2014.

As the first two volumes were very warmly received, so this provided us the impetus to bring out the current Volume 3. If comments from the readers are a barometer of the success of a book, then the idea of publishing these books proved to be well vindicated. These hard-bound books provide an easily accessible resource for information on a number of topics of contemporary interest and relevance. Also, when the authors of these review articles were polled they wholeheartedly embraced the idea of making Volume 3 available.

With the tremendous amount of information being published, critical review articles play a very significant role for anyone wishing to stay abreast of the latest developments on a topic of his/her interest. Also, concise and illuminating review articles provide a gateway and nice entrée to the literature available on a particular topic.

The rationale for bringing out Volume 3 was the same as was applicable to its predecessors, i.e, the RAA has limited circulation so this set of books should provide broad exposure and wide dissemination of valuable information published on many and varied aspects of Adhesion & Adhesives in RAA.

The chapters in this Volume 3 follow the same order as the review articles published originally in RAA in the year 2017. The subjects of these 12 review articles fall into the following areas.

Nanoparticles in reinforced composites.

Wettability behavior and its modification, including superhydrophobic surfaces.

Ways to promote adhesion, including rubber adhesion.

Adhesives and adhesive joints.

Dental adhesion.

The topics covered include: Nanoparticles as interphase modifiers in fiber reinforced polymeric composites; fabrication of micro/nano patterns on polymeric substrates to control wettability behavior; plasma processing of aluminum alloys to promote adhesion; UV-curing of adhesives; functionally graded adhesively bonded joints; adhesion between unvulcanized elastomers; electrowetting for digital microfluidics; control of biofilm at the tooth-restoration bonding interface; easy-to-clean superhydrophobic coatings; cyanoacrylates; promotion of resin-dentin bond longevity in adhesive dentistry; and effects of nanoparticles on nano-composites Mode I and Mode II fractures.