Surface coatings / Mario Rizzo and Giuseppe Bruno, editors.

Format:

Book

Contributor:

Rizzo, Mario, 1958-

Bruno, Giuseppe, 1959-

Language:

English

Subjects (All):

Surface sealers.

Protective coatings.

Physical Description:

1 online resource (297 p.)

Edition:

1st ed.

Place of Publication:

Hauppauge, N.Y. : Nova Science Publishers, c2009.

Language Note:

English

Summary:

This book presents current research on thin films and coatings. The mechanical properties of films and coatings, which are highly affected by their microstructure and their adhesion to substrates, are reviewed. Furthermore, electronic semiconductor devices and optical coatings, which are the main applications benefiting from thin film construction are looked at. This book discusses antimicrobial surface coatings as promising applications of advanced active food packaging systems. Ways in which they effectively control the microbial contamination of various foodstuffs are analysed. Research that has been done in the last decade using ultrasonic waves for coating surfaces is also examined. Finally, since coatings and films mechanical properties are highly affected by their microstructure, and their adhesion to substrates, this book includes research on interface microstructure and the important role that bond formation plays on coatings and films.

Contents:

Intro

SURFACE COATINGS

CONTENTS

PREFACE

Chapter 1STATE OF THE ART BIOACTIVETITANIUM IMPLANT SURFACES

Abstract

1. Introduction

2. State of the Art CP Titanium Implant Surfaces

2.1. Fluoridated CP Titanium Surfaces

Appendix - Fluoridated CP Titanium Surfaces

SBF

In Vitro

In Vivo

Clinic

2.2. Alkali-Heat Treated CP Titanium Surfaces

Appendix - Alkali-Heat Treated CP Titanium Surfaces

General

2.3. Anodized CP Titanium Surfaces

Appendix - Anodized CP Titanium Surfaces

2.4. Thin HA Sol-Gel Coated CP Titanium Surfaces

Appendix - Thin HA Sol-Gel Coated CP Titanium Surfaces

2.5. Proteins Covalently Immobilized to CP Titanium Surfaces

Appendix - Proteins Covalently Immobilized to CP Titanium Surfaces

In Vitro Peptides

In Vitro Proteins

In Vivo Peptides

In Vivo Proteins

3. Conclusion

References

Chapter 2ANTIMICROBIAL SURFACE COATINGSIN PACKAGING APPLICATIONS

2. Antimicrobial Packaging Materials

2.1. Food/ Packaging Interaction

2.2. Migration of Antimicrobial Substances

2.3. Antimicrobial Activity

2.3.1. Leachable Antimicrobials

2.3.2. Non-Leachable (Immobilized) Antimicrobials

Chapter 3ENVIRONMENTALLY FRIENDLY CONVERSIONCOATING APPLICATIONS FOR HOT ROLLED STEEL(HRS) PRIOR TO POWDER COATING APPLICATION

Introduction

Experimental

Description of Conversion Coatings Used

Phosphate Coatings

Silane Nanocoating

Zirconium Chemistries

Sample Preparation

Pre-Treatment

Powder Coating

Findings

Coating Weight

Adhesion Test

Scanning Electron Microscopy (SEM)

Salt Spray Test

Prohesion Test.

Electrochemical Impedance Spectroscopy

Conculusions

Chapter 4PRECISE SYNTHESIS OF AMPHIPHILIC POLYMERICNANO ARCHITECTURES UTILIZED BY METAL-CATALYZED LIVING RING-OPENING METATHESISPOLYMERIZATION (ROMP)

1.1. Amphiphilic Block Copolymers (ABCs)

1.2. Living Ring-Opening Metathesis Polymerization (ROMP) forPreparation of ABCs

2. Precise Synthesis of Amphiphilic Block Copolymers (ABCs) bythe Living ROMP Using Molybdenum-Alkylidene Catalysts

2.1. Precise Synthesis of Amphiphilic Block Copolymers (ABCs) by GraftingPoly(Ethylene Glycol) to End-Functionalized Block ROMP Copolymers

- Precise Synthesis of Amphiphilic Multi-Block Copolymers by GraftingPoly(Ethylene Glycol) (PEG) to the ROMP Polymer -

2.2. Precise Synthesis of Amphiphilic Block Copolymers by Combination ofROMP with Other Living Polymerization Techniques

- Selected Examples for Synthesis of Graft Copolymers by Combination ofROMP with Other Living Polymerization Techniques -

3. Precise Synthesis of Amphiphilic Block Copolymers by theRepetitive Living ROMP Approach:Living ROMP of Macromonomers

4. Concluding Remarks

Acknowledgment

Chapter 5ATMOSPHERIC PRESSURE PLASMAPOLYMERISATION

2. Non-thermal Atmospheric Pressure Plasmas

Microplasmas

Plasma Jet

3. Plasma Polymerisation: Common Monomers and TheirApplications

3.1. Hydrocarbons

3.2. Hydrocarbons with Polar Functional Groups

3.3. Hydrocarbons with Halogen Containing Functional Groups

3.4. Heterocyclic Aromatic Organic Monomers

3.5. Organosilicons

3.6. Silane

4. Conclusion

Chapter 6INTERFACE RESEARCH ON FILMS AND COATINGS

Experiment

Results and Discussion

Conclusions

References.

Chapter7ASTUDYONINORGANICMETALLICANDDIELECTRICTHINFILMSGROWNONPOLYMERICSUBSTRATESATROOMTEMPERATUREBYPVDANDCVDTECHNIQUES

AluminumandNickelCoatingsGrownonPolyester

SubstratesProperties

FilmDeposition

ChromiumCoatingsGrownonABS

Filmdeposition

SiliconOxideCoatingsGrownonDentalResins

SiliconOxideCoatingsGrownonPolyamide

Substrateproperties

Conclusion

Acknowledgments

Chapter 8SONOCHEMICAL COATINGS OF NANOPARTICLESON FLAT AND CURVED CERAMICAND POLYMERIC SURFACES

2. Sonochemical Deposition of Nanoparticles on CeramicSubmicrospheres

3. Ultrasound-Assisted Deposition/Insertion of Nanoparticleson/into the Pores of Mesoporous Supports

4. Sonochemical Coating of Polystyrene Spheres

5. Sonochemical Coating of the Polymer Beads

6. Coating of Natural and Synthetic Textile Fibersvia Ultrasound Irradiation

Acknowledgement

Chapter 9POST-CONSUMER PET AND POST-CONSUMERPET-CONTAINING MATERIALS FOR FLAMESPRAY COATINGS ON STEEL:PROCESSING, PROPERTIES AND USE

2. Material

3. Thermal Processing of Post-Consumer PET-Based Coatings

Powder Consolidation under Thermal Heat [24]

Thermal Spraying

4. Tribology

Friction of PET Coatings

Effect of EMAA Addition on Friction Coefficient of PET Coatings

Sliding Wear of PET Coatings

5. Weathering Resistance of PET and PET-EMAA Blends [24]

Photodegradation of PET-EMAA Coatings on Steel During the WeatheringTests

Fourier Transform Infrared Spectroscopy, Ultraviolet-Visible Spectroscopy,Mechanical and Thermal Analysis of Photodegradationof PET-EMAA Coatings on Steel

6. Corrosion Resistance of PET-Based Coatings

PET Coatings in Fuel Media.

Salt Spray Test of PET and PET-EMAA Blends [24]

PET Composite Coatings in Acid Media [25]

7. Conclusion

Chapter 10COATING OF CARBON NANOTUBESWITH INSULATING THIN LAYERS

INDEX

Blank Page.

Notes:

Description based upon print version of record.

Includes bibliographical references and index.

Description based on print version record.

ISBN:

1-61668-992-7

OCLC:

923662493