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Adhesion Aspects of Polymeric Coatings . Vol. 2
Adhesion Aspects of Polymeric Coatings . Vol. 2
Autore Mittal K. L. <1945->
Edizione [First edition.]
Pubbl/distr/stampa VSP [Imprint], 2003
Descrizione fisica 1 online resource (222 p.)
Disciplina 668.4/9
Soggetto topico Adhesion
Plastic coating
Polymers
ISBN 0-429-08797-7
1-280-46544-1
9786610465446
1-4175-7781-9
90-474-0329-0
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Contents; Preface; Interphase: Formation, characterization and relevance to practical adhesion; Depletion, a key factor in polymer adhesion; Attaining adhesion/cohesion within painted plastics; Scanning electric potential microscopy (SEPM) and electric force microscopy (EFM) imaging of polymer surfaces; The residue (smut) formed on aluminum alloys during hydrofluoric acid etching and its effect on a coating process; Surface modification of metals by silanes; Application of X-ray photoelectron spectroscopy in assessing the adsorption of siloxane polymers onto E-glass fibers
Surface modification of polyphenylene sulfide plastics to improve their adhesion to a dielectric adhesiveMetal surface conditioning concepts for resin bonding in dentistry; Measurement of internal stresses in polymeric coatings using time resolved fluorescence; Adhesion of an alkyd paint to cold rolled steel sheets: Effect of steel surface composition; Analysis of the wet adhesion of coatings on wood; Modified tape test: Measurement of adhesion of insulator films to low dielectric constant organic polymers
Record Nr. UNINA-9910783228003321
Mittal K. L. <1945->  
VSP [Imprint], 2003
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Adhesion Aspects of Polymeric Coatings . Vol. 2
Adhesion Aspects of Polymeric Coatings . Vol. 2
Autore Mittal K. L. <1945->
Edizione [First edition.]
Pubbl/distr/stampa VSP [Imprint], 2003
Descrizione fisica 1 online resource (222 p.)
Disciplina 668.4/9
Soggetto topico Adhesion
Plastic coating
Polymers
ISBN 9786610465446
9780429087974
0429087977
9781280465444
1280465441
9781417577811
1417577819
9789047403296
9047403290
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Contents; Preface; Interphase: Formation, characterization and relevance to practical adhesion; Depletion, a key factor in polymer adhesion; Attaining adhesion/cohesion within painted plastics; Scanning electric potential microscopy (SEPM) and electric force microscopy (EFM) imaging of polymer surfaces; The residue (smut) formed on aluminum alloys during hydrofluoric acid etching and its effect on a coating process; Surface modification of metals by silanes; Application of X-ray photoelectron spectroscopy in assessing the adsorption of siloxane polymers onto E-glass fibers
Surface modification of polyphenylene sulfide plastics to improve their adhesion to a dielectric adhesiveMetal surface conditioning concepts for resin bonding in dentistry; Measurement of internal stresses in polymeric coatings using time resolved fluorescence; Adhesion of an alkyd paint to cold rolled steel sheets: Effect of steel surface composition; Analysis of the wet adhesion of coatings on wood; Modified tape test: Measurement of adhesion of insulator films to low dielectric constant organic polymers
Record Nr. UNINA-9910960678003321
Mittal K. L. <1945->  
VSP [Imprint], 2003
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Polymer Surface Modification to Enhance Adhesion : Techniques and Applications
Polymer Surface Modification to Enhance Adhesion : Techniques and Applications
Autore Mittal K. L. <1945->
Edizione [1st ed.]
Pubbl/distr/stampa Newark : , : John Wiley & Sons, Incorporated, , 2024
Descrizione fisica 1 online resource (593 pages)
Disciplina 668.3
Altri autori (Persone) NetravaliAnil Narayan <1948->
Soggetto topico Adhesion
Surface chemistry
ISBN 9781394231034
1394231032
9781394231027
1394231024
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover -- Title Page -- Copyright Page -- Contents -- Preface -- Part I: Energetic Treatments -- Chapter 1 Atmospheric Pressure Plasma Treatment of Polymers to Enhance Adhesion -- 1.1 Introduction -- 1.2 Historical Development of APPTs -- 1.3 Functional Groups Produced by APPTs -- 1.3.1 Nitrogen-Based Surface Modification -- 1.3.2 Oxygen-Based Surface Modification -- 1.4 Adhesion Improvement for Bonding -- 1.4.1 Adhesive Bonding by Functional Groups -- 1.4.2 Adhesive-Free Joining by Functional Coatings -- 1.5 Targeted Adhesion for Biomedical Applications -- 1.6 Relevance of Adhesion in Additive Manufacturing -- 1.6.1 Surface Modification for Adhesion Improvement -- 1.6.2 Enhanced Cell Adhesion and Growth on Additive Manufactured Parts -- 1.7 Summary -- 1.8 Acknowledgements -- References -- Chapter 2 Corona Treatment of Polymer Surfaces to Enhance Adhesion -- 2.1 Introduction -- 2.1.1 Chemical versus Physical Methods in Polymer Surface Modifications -- 2.1.2 Corona Treatment and Impact on Polymers -- 2.1.3 Corona Treatment Applications and Limitations -- 2.2 Mechanism of Corona Treatment -- 2.2.1 Equipment and Operation Details for Corona Treatment -- 2.2.2 Effect of Plasma Source on Efficiency of Corona Treatment -- 2.3 Factors Affecting Performance of Corona Treatment -- 2.3.1 Effect of Material Surface Preparation: 2-D vs. 3-D -- 2.3.2 Mechanistic Discussions of Corona Parameters -- 2.3.3 Influence of Physical Factors and Equipment Design -- 2.3.4 Influence of Plasma Chemistry and Gas Composition -- 2.3.5 Effects of Process Control Methods -- 2.3.6 Hydrophobic Recovery and Mitigation by Additives -- 2.4 Surface Effects of Corona Treatment -- 2.4.1 Surface Polar Functional Groups -- 2.4.2 Modifying Surface Wettability -- 2.5 Adhesion Improvement by Corona Treatment -- 2.5.1 Polypropylene (PP) -- 2.5.2 Polyethylene (PE).
2.5.3 Poly(ethylene terephthalate) (PET) -- 2.5.4 Poly(vinyl chloride) (PVC) -- 2.5.5 Polystyrene (PS) -- 2.6 Summary -- References -- Chapter 3 Flame Surface Treatment of Polymers to Enhance Their Adhesion -- 3.1 Introduction -- 3.2 Chemistry of Flame Treatment -- 3.3 Flame Treatment Equipment -- 3.4 Factors Controlling Flame Plasma Surface Treatment -- 3.4.1 Flame Chemistry -- 3.4.2 Amount of Plasma Generated -- 3.4.3 Flame Geometry -- 3.4.4 Distance of the Substrate from the Flame -- 3.4.5 Dwell Time -- 3.5 Measurement of Treatment Level -- 3.6 Safety and Other Considerations -- 3.7 Adhesion Improvement -- 3.8 Summary -- References -- Chapter 4 Vacuum UV (VUV) Photo-Oxidation of Polymer Surfaces to Enhance Adhesion -- 4.1 Introduction -- 4.2 Vacuum UV Photo-Oxidation Process -- 4.2.1 VUV Background -- 4.2.2 VUV Radiation -- 4.2.2.1 Emission from Excited Atoms -- 4.2.2.2 Emission from High Pressure Rare Gas Plasmas -- 4.2.2.3 Emission from Rare-Gas Halides and Halogen Dimers -- 4.2.2.4 Other VUV Radiation Sources -- 4.2.3 VUV Optical Filters -- 4.2.4 Penetration Depths of VUV Radiation with Polymers -- 4.2.5 Analytical Methods for Surface Analysis -- 4.2.6 VUV Photochemistry of Oxygen -- 4.2.7 Reactions of O Atoms and Ozone with a Polymer Surface -- 4.3 Adhesion to VUV Surface Photo-Oxidized Polymers -- 4.3.1 Fluorine-Containing Polymers -- 4.3.1.1 Fluoropolymers -- 4.3.1.2 Nafion -- 4.3.2 Polyimides (PIs) -- 4.3.3 Polymers and Metals -- 4.3.4 Polyethylene (PE), -(C2H4)n- -- 4.3.5 Polystyrene (PS) -- 4.3.6 Cyclo-Olefin Polymers -- 4.3.7 Poly(ethylene terephthalate) (PET) -- 4.3.8 Polybenzimidazole (PBI) -- 4.3.9 Poly(etheretherketone) (PEEK) -- 4.3.10 Polypropylene (PP), -(C3H6)n- -- 4.3.11 Poly(ethylene 2,6-naphthalate) (PEN) -- 4.3.12 Polyethersulfone (PES) -- 4.3.13 Polyetherimide (PEI) and Epoxy Resin (RTM6) -- 4.4 Sustainable Polymers.
4.5 Summary -- References -- Chapter 5 Application-Related Optimization of Adhesion of Polymers Using Photochemical Surface Modification -- 5.1 Introduction -- 5.2 Photochemical Surface Modification -- 5.2.1 Fundamentals of the Process -- 5.2.1.1 Photo-Addition or Photo-Grafting -- 5.2.1.2 Layer Formation by Homo-Polymerization and Graft-Co-Polymerization -- 5.2.2 General Process Design -- 5.3 Using Photo-Addition and Photo-Grafting to Promote the Adhesion Property of Hydrophobic Substrates -- 5.4 Enhancing Adhesion of Hydrophobic Materials on Hydrophilic Substrates - Biobased Composites as Case Study -- 5.5 Biosystems: Cell and Protein Adhesion, Antifouling Surfaces -- 5.6 Summary -- Acknowledgement -- References -- Chapter 6 UV/Ozone Surface Treatment of Polymers to Enhance Their Adhesion -- 6.1 Introduction -- 6.1.1 Adhesive Bonding of Polymers -- 6.1.2 UV-C Sensitivity of Polymers -- 6.1.3 UV/Ozone Treatment: Advantages -- 6.1.4 UV/Ozone Treatment: Disadvantages -- 6.2 Historical Development of UV/Ozone Surface Treatment -- 6.3 Parameters Controlling the UV/Ozone Surface Treatment Process -- 6.3.1 Ultraviolet (UV) Light Spectrum -- 6.3.2 UV-Light Generation -- 6.3.3 UV-Light Sources Used -- 6.3.4 Photochemical Ozone Generation -- 6.3.5 Relation between Ozone Generation and UV-Source Power -- 6.3.6 Temperature during UV/Ozone Treatment on Polyolefin Surfaces -- 6.3.7 Influence of Wavelength(s) and Gas Fill on Polyolefin Surfaces -- 6.3.8 Influence of Ozone Gas and UV-Light Spectrum on Polymer Surface Wetting -- 6.3.9 Main Process Variables: Overview -- 6.4 Surface Changes of Polymeric Materials by UV/Ozone Treatment -- 6.4.1 Polymer Bonds -- 6.4.2 Surface Cleaning by UV/Ozone: Increasing Hydrophilicity and Surface Free Energy -- 6.4.3 Photo-Degradation: Surface Roughness and Morphology Changes -- 6.4.4 UV-Light Treatment Depth in Polymer Surfaces.
6.4.5 Surface Relaxation of HDPE -- 6.5 Surface Analysis of UV/Ozone Treated Polymeric Surfaces -- 6.5.1 Scanning Electron Microscopy (SEM) on UV/Ozone Treated Carbon Fibre Reinforced Polymer (CFRP) -- 6.5.2 Atomic Force Microscopy (AFM) on UV/Ozone Treated CFRP -- 6.5.3 X-Ray Photoelectron Spectroscopy (XPS) on UV/Ozone Treated CFRP -- 6.5.4 Attenuated Total Reflection Fourier Transform Infrared Spectroscopy (ATR-FTIR) Investigation on UV/Ozone Treated CFRP -- 6.5.5 Optically Stimulated Electron Emission (OSEE) Investigation on UV/Ozone Treated CFRP -- 6.5.6 Contact Angle Measurements on UV/Ozone Treated CFRP -- 6.6 UV/Ozone Treatment of Polymers: Improved Wetting and Adhesion -- 6.6.1 Introduction: UV/Ozone Treatment of Polymers -- 6.6.2 UV/Ozone Treatment of Thermoset Materials -- 6.6.2.1 Introduction: UV/Ozone Treatment of CFRP -- 6.6.2.2 Mechanical Tests on UV/Ozone Treated CFRP -- 6.6.2.3 Mechanical Fatigue Loading of UV/Ozone Treated CFRP -- 6.6.2.4 Adhesive Bonding of UV/Ozone Treated CFRP to Aluminium -- 6.6.2.5 UV/Ozone Treatment and Testing of Aerospace Primers -- 6.6.2.6 Mechanical Tests on UV/Ozone Treated Epoxy Coated Magnets -- 6.6.2.7 UV/Ozone Modification of Poly(dimethylsiloxane) -- 6.6.3 UV/Ozone Treatment of Thermoplastics -- 6.6.3.1 Adhesive Bonding of POM to Aluminium -- 6.6.3.2 Adhesive Bonding of Polyethylene (PE) to Stainless Steel -- 6.6.3.3 Adhesive Bonding and Aging of HDPE -- 6.6.3.4 Adhesive Bonding of Polyethylene (PE) to Acrylonitrile Styrene Acrylate (ASA) -- 6.6.3.5 Adhesive Bonding of Polypropylene (PP) -- 6.6.3.6 Surface Treatment of Nylon (Polyamide 6) -- 6.6.3.7 UV/Ozone Treatment of Poly(phenylene sulphide) (PPS) -- 6.6.3.8 UV/Ozone Treatment of Poly(methyl methacrylate) (PMMA) -- 6.6.3.9 Adhesive Bonding of Flexible Polymeric Solar Cells -- 6.6.3.10 Treatment of ABS for Adhesive Bonding.
6.6.3.11 Adhesive Bonding of Styrene-Acrylonitrile (SAN) to a Thermoplastic Elastomer (TPE) -- 6.6.4 UV/Ozone Treatment of Rubbers -- 6.6.4.1 UV/Ozone Treatment of SBS Rubber -- 6.6.4.2 Surface Treatment of Ethylene Propylene Diene Monomer (EPDM) Rubber to Optimize the Adhesion of a Coating -- 6.6.4.3 EPDM Rubber Pre-Treated by a Low Pressure UV-Source -- 6.7 Prospects -- 6.8 Summary -- Acknowledgements -- References -- Chapter 7 Adhesion Enhancement of Polymer Surfaces by Ion Beam Treatment -- 7.1 Introduction -- 7.1.1 Ion Beam - Surface Interactions: Background -- 7.1.2 Ion Beam - Surface Interactions: Kinetics -- 7.1.3 Computer Simulations of Ion Beam - Solid Interactions -- 7.2 Ion Beam Treatment of Polymers -- 7.2.1 Principle of Technique -- 7.2.2 Types of Ion Beams and Interactions -- 7.2.3 Impacts and Outcome of Polymer Surface Modification -- 7.3 Analysis Techniques to Analyze Post Ion Beam Treatment -- 7.3.1 X-Ray Diffraction -- 7.3.2 Scanning Electron Microscopy (SEM) -- 7.3.3 Scanning Tunneling Microscopy (STM) -- 7.3.4 Fourier Transform Infrared Spectroscopy -- 7.3.5 Raman Spectroscopy -- 7.3.6 UV Spectroscopy -- 7.3.7 X-Ray Photoelectron Spectroscopy (XPS) -- 7.3.8 Atomic Force Microscopy (AFM) -- 7.3.9 Wettability Measurements -- 7.4 Polymer Surface Modifications for Biomedical Applications -- 7.4.1 Poly(lactic acid) (PLA) -- 7.4.2 Poly(L-lactic acid) (PLLA) -- 7.4.3 Poly(L-lactide) (PLA), Poly(D, L-Lactide-co-glycolide) (PDLG) and Poly(L-lactide-co-caprolactone) (PLC) -- 7.4.4 Poly(dimethylsiloxane) (PDMS) -- 7.4.5 He+ Ion Irradiation of Selected Polymeric Materials -- 7.4.6 Ion Beam Assisted Deposition (IBAD) -- 7.4.7 Ion Beam Texturing (IBT) -- 7.5 Polymer Surface Modification for Microelectronics Applications -- 7.5.1 Bisphenol A Polycarbonate (PC) -- 7.5.2 Aluminum Films on Bisphenol A Polycarbonate (PC).
7.5.3 Indium Tin Oxide (ITO) Films on Bisphenol A Polycarbonate (PC).
Record Nr. UNINA-9911019770803321
Mittal K. L. <1945->  
Newark : , : John Wiley & Sons, Incorporated, , 2024
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui