Verfügbarkeit: Laser surface modification and adhesion

Laser surface modification and adhesion:

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Bibliographische Detailangaben
Format:	Buch
Sprache:	English
Veröffentlicht:	Hoboken, NJ Wiley 2015
Schriftenreihe:	Adhesion and adhesives: fundamental and applied aspects
Schlagworte:	Surfaces (Technology) Lasers Adhesion Oberflächenbehandlung Laserbearbeitung
Online-Zugang:	Inhaltsverzeichnis Klappentext
Beschreibung:	XVII, 418 Seiten Illustrationen, Diagramme
ISBN:	9781118831632

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Datensatz im Suchindex

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adam_text	D Contents Preface xv Part 1: Laser Surface Treatment/Modification to Enhance Adhesion 1 Nd: YAG Laser Surface Treatment of Various Materials to Enhance Adhesion 3 A.Buchman, M, Rotel and H. Dodiuk-Kenig 1.1 Introduction 4 1.1.1 Surface Pretreatment for Adhesive Bonding 4 1.1.2 Pretreatment Processes - State of the Art 5 1.1.3 Solid State Nd:YAG Laser 7 1.1.4 The Aim of the Current Research 12 1.2 Methodology 13 1.3 Experimental 13 1.3.1 Materials 13 1.3.2 Laser Parameters 14 1.3.3 Visual Observation 14 1.3.4 SEM Observation of Treated Surfaces 15 1.3.5 XPS 15 1.3.6 Contact Angle 15 1.3.7 FTIR 16 1.3.8 Joint Strength 16 1.3.8.1 Shear Strength of Joints 16 1.3.8.2 Tensile Strength of Joints 16 1.4 Results 17 1.4.1 Polypropylene (PP) 17 1.4.1.1 Contact Angle 20 1.4.1.2 FTIR Results 20 1.4.1.3 Joint Strength Measurements 21 vi Contents 1.4.2 Aluminum (2024 ТЗ) 26 1.4.2.1 Contact Angle 28 1.4.2.2 FTIR Results 29 1.4.2.3 Joint Strength Measurements 30 1.4.3 Polyimide (Кар ton) 32 1.4.3.1 Contact Angle 35 1.4.3.2 FTIR Results 35 1.4.3.3 Joint Strength Measurements 36 1.4.4 Open Time 40 1.4.5 Silicone Rubber 40 1.4.5.1 Contact Angle 44 1.4.5.2 FTIR Results 44 1.4.5.3 Joint Strengths Measurements 44 Conclusions 49 enees 51 1.5 2 Effects of Excimer Laser Treatment on Self-Adhesion Strength of Some Commodity (PS, PP) and Engineering (ABS) Plastics 55 Eroi Sancaktar, Hut Lu and Nongnard Sunthonpagasit 2.1 Introduction 56 2.2 Background and Literature Survey 56 2.2.1 Excimer Laser Surface Treatment 56 2.2.1.1 Overview of Excimer Laser Processing 56 2.2.1.2 Mechanism of Thermal-oxidation by Laser Irradiation 58 2.2.1.3 Mechanism of Photo-oxidation by Laser Irradiation 58 2.2.1.4 The Mathematical Models of Excimer Laser Surface Modification 59 2.3 Ultrasonic Welding of Thermoplastics 65 2.3.1 Overview of Ultrasonic Welding 65 2.3.2 The Components of Ultrasonic Welder 66 2.3.3 Mechanism of Ultrasonic Welding and Structure Development at Semicrystalline Interface 66 2.3.4 Modeling of Ultrasonic Welding 67 2.3.5 Minimum Flow Velocity 69 2.3.6 Energy Directors 69 2.3.7 The Effect of Pressure Control 69 2.3.8 The Effect of Ultrasonic Amplitude 70 Contents vii 2.3.9 The Effect of Trigger Pressure 70 2.3.10 The Effect of Weld Time 70 2.3.11 The Effect of Horn Down Speed 70 2.3.12 Ultrasonic Weldability of Thermoplastics 71 2.4 Experimental Procedures 71 2.4.1 Sample Preparation 71 2.4.1.1 Materials 71 2.4.1.2 Injection Molding 71 2.4.1.3 Preparation of samples for laser treatment and welding experiments 73 2.4.2 Processing 74 2.4.2.1 Excimer Laser Treatment 74 2.4.2.2 Ultrasonic Welding 74 2.4.3 Tensile Testing 74 2.5 Results and Discussion 74 2.5.1 The Effect of Ultrasonic Weld Parameters on the Weld Strength of PP 74 2.5.2 The Effect of Laser Treatment on the Ultrasonic Weld Strength 77 2.5.2.1 The Effect of Laser Treatment on Weld Strength of PP 77 2.5.2.2 The Effect of Laser Treatment on Weld Strengths of PS and ABS 81 2.5.2.3 The Effect of Pulse Number on the Weld Strength of PS and ABS 84 2.5.2.4 The Effect of Laser Pulse Energy on Weld Strength of PS and ABS 87 2.5.2.5 The Effect of Laser Pulse Frequency on Weld Strength of PS and ABS 91 2.6 Summary and Conclusions 94 References 97 Laser Surface Pre-Treatment of Carbon Fiber-Reinforced Plastics (CFRPs) for Adhesive Bonding 103 F. Fischer, S. KrelingandK. Dilger 3.1 Introduction 103 3.2 State-of-Research 105 3.2.1 Interaction of Laser Radiation with Plastics 105 3.2.2 Laser Pre-treatment of Fiber-reinforced Plastic 108 viii Contents 3.3 Materials and Methods 110 3.4 Laser Sources and Ρ rinciples 112 3.4.1 Laser Processing Strategies 114 3.4.2 Mid-UV Laser 116 3.4.3 Near-UV Laser 118 3.4.4 Near-IR Laser 119 3.4.5 Mid-IR Laser 120 3.5 Results 121 3.5.1 Surface Analyses and Cross-sectional Images 122 3.5.2 Mechanical Tests 129 3.5.3 Accelerated Aging 133 3.6 Summary 134 References 135 4 Laser Surface Modification of Fibers for Improving Fiber/Resin Interfacial Interactions in Composites 139 Anil N. Netravali 4.1 Introduction 140 4.2 Excimer Laser Treatment of UHM WPE Fibers 143 4.3 Excimer Laser Treatment of Vectran* Fibers 154 4.4 Excimer Laser Treatment of Arámid Fibers 159 4.5 Excimer Laser Treatment of Cellulose Fibers 160 4.6 Summary 161 References 162 5 Laser Surface Modification in Dentistry: Effect on the Adhesion of Restorative Materials 167 Regina Guenka Palma-Dibb, Juliana Jendiroba Faraoni-Romano and Walter Raucci-Neto 5.1 Introduction 167 5.2 Dental Structures 173 5.3 Adhesion of Restorative Materials 180 5.4 Laser Light Interaction with the Dental Substrate 186 5.5 Dental Structure Ablation and Influence on Bond Strength of Restorative Materials 190 5.6 Summary and Prospects 196 References 196 Contents ix Part 2: Other Effects/Applications of Laser Surface Treatment 6 Fundamentals of Laser-Polymer Interactions and their Relevance to Polymer Metallization 205 Piotr Rytlewski 6.1 Introduction 205 6.2 Impact of Laser Radiation on a Polymeric Material 208 6.3 Laser Selection Criteria 215 6.4 Surface Modification of Polymeric Materials Below Ablation Threshold 220 6.5 Surface Modification of Polymeric Materials Above Ablation Threshold 233 6.6 Application of Lasers to Polymer Metallization 241 6.6.1 Metallization of Polymers 241 6.6.2 Neat Polymers in Gaseous Medium 243 6.6.3 Neat Polymers in Liquid Medium 246 6ЉЛ Neat Polymers Coated with Films 247 6.6.5 Polymer Composites Containing Active Species 248 6.7 Summary 251 Acknowledgement 252 References 252 7 Laser Patterning of Silanized Carbon/Polymer Bipolar Plates with Tailored Wettability for Fuel Cell Applications 263 Martin Schade, Steffen Franzka, Anja Schröter, Franco Cappuccio, Völker Peinecke, Angelika Heinzel and Nils Hartmann 7.1 Introduction 264 7.1.1 Water Management in Fuel Cells 264 7.1.2 Wettability of Materials 266 7.2 Silane-based Coatings 269 7.3 Laser Processing of Silane-based Coatings 271 7.4 Fabrication and Plasma Activation of Bipolar Plates 272 7.5 Silanization of Bipolar Plates 276 7.6 Laser Processing of Bipolar Plates 278 7.7 Summary 282 χ Contents 7.8 Prospects 283 Acknowledgments 283 References 284 8 Predominant and Generic Parameters Governing the Wettability Characteristics of Selected Laser-modified Engineering Materials 289 Jonathan Lawrence, David Waugh and Hao Liang 8.1 Introduction 290 8.2 Modification of Wettability Characteristics Using Laser Beams 291 8.2.1 Laser Surface Modification of Ceramic Materials for Improved Wettability 291 8.2.2 Laser Surface Modification of Metallic Materials for Improved Wettability 292 8.2.3 Laser Surface Modification of Polymers for Improved Wettability 294 8.3 Laser Wettability Characteristics Modification of Selected Ceramics 296 8.3.1 Experimental Procedures 296 8.3.1.1 Material Specifications 296 8.3.1.2 Laser Processing Details 296 8.3.1.3 Morphological, Chemical and Phase Analysis Procedures 297 8.3.1.4 Wettability Characteristics Analysis Procedure 298 8.3.2 Identification of the Predominant Mechanisms Active in Determining Laser-modified Wettability Characteristics 299 8.3.2.1 For the Magnesia Partially Stabilized Zirconia (MgO-PSZ) 299 8.3.2.2 For the Yttria partially Stabilized Zzirconia (YPSZ) 303 8.3.3 Ascertaining the Generic Effects of Laser Surface Treatment on the Wettability Characteristics of the Selected Ceramics 305 8.4 Laser Wettability Characteristics Modification of Selected Metals 307 8.4.1 Experimental Procedures 307 8.4.1.1 Material Specifications 307 8.4.1.2 Laser Processing Details 308 Contents xi 8.4.1.3 Morphological, Chemical and Phase Analysis Procedures 308 8.4.1.4 Wettability Characteristics Analysis Procedure 309 8.4.2 Identification of the Predominant Mechanisms Active in Determining Laser-modified Wettability Characteristics 309 8.4.2.1 For the TÌ6A14V Alloy 309 8.4.2.2 For the 316 LS Stainless Steel 312 8.4.3 Ascertaining the Generic ErFects of Laser Surface Treatment on the Wettability Characteristics of the Selected Metals 314 8.5 Laser Wettability Characteristics Modification of a Selected Polymer 316 8.5.1 Experimental Procedures 316 8.5.1.1 Material Specifications 316 8.5.1.2 Laser-induced Patterning Procedure 316 8.5.1.3 Laser whole-area Irradiative Processing Procedure 319 8.5.1.4 Topography, Wettability Characteristics and Surface Chemistry Analysis Techniques 319 8.5.2 Identification of the Predominant Mechanisms Active in Determining Laser-modified Wettability Characteristics 320 8.5.2.1 Laser-induced Patterning 320 8.5.2.2 Laser Whole-area Irradiative Processing 323 8.5.2.3 Comparison Between Laser-induced Patterning and Laser Whole-area Irradiative Processing 325 8.5.3 Ascertaining the Generic ErFects of Laser Surface Treatment on the Wettability Characteristics of the Polymer 327 8.6 Summary and Conclusions 329 References 331 xii Contents 9 Laser Surface Engineering of Polymeric Materials and the Effects on Wettability Characteristics 337 D.G. Waugh, D. Avdic, K.J. Woodham and J. Lawrence 9.1 Introduction 337 9.2 Wettability Characteristics 338 9.2.1 Contact Angle 338 9.2.1.1 Contact Angle Hysteresis 339 9.2.1.2 The Effect of Surface Roughness on the Contact Angle 340 9.2.1.3 The Effects of Surface Chemistry on the Contact Angle 340 9.2.2 Surface Energy Parameters 342 9.2.3 Wettability in Relation to Adhesion 343 9.2.3.1 Adhesional Wetting 343 9.2.3.2 Immersional Wetting 344 9.2.3.3 Spreading Wetting 345 9.3 State-of-the-Art Surface Engineering Techniques 345 9.3.1 Alternatives to Laser Surface Engineering 345 9.3.1.1 Radiation Grafting 345 9.3.1.2 Plasma Surface Modification 346 9.3.1.3 Ion Beam Processing 346 9.3.1.4 Micro-printing 347 9.3.2 Photolithography 348 9.3.3 Using Lasers for Surface Engineering 351 9.3.3.1 Laser Surface Engineering 351 9.3.4 A Technique for Laser Surface Engineering of Polymeric Materials 355 9.3.4.1 The Polymeric Material 355 9.3.4.2 The Laser Surface Treatments 355 9.3.5 Employing Laser Surface Engineering of Polymeric Materials to Modulate Wettability Characteristics 358 9.3.5.1 CO2 and KrF Excimer Laser-Patterning 358 9.3.5.2 CO2 and KrF Excimer Laser Whole Area Irradiative Processing 359 9.3.5.3 Comparisons Between Laser-Patterning and Laser Whole Area Irradiative Processing 360 9.3.5.4 Predicting Mixed-State Wetting Regimes for Laser Surface Engineered Polymeric Materials 363 Contents xiii 9.4 Summary 366 References 367 10 Water Adhesion to Laser-Treated Surfaces 377 Athanasios Milionis, Despina Fragouli, liker S. Bayer and Athanassia Athanassiou 10.1 Introduction 377 10.2 Materials, Fabrication Approaches and Results 381 10.2.1 Organic Materials and Nanocomposites 381 10.2.1.1 Crystalline Polymers 381 10.2.1.2 Thermosetting Polymers 383 10.2.1.3 Thermoplastic Polymers 386 10.2.1.4 Nanocomposites 387 10.2.2 Inorganic Materials 389 10.2.2.1 Silicon 389 10.2.2.2 Metals and Alloys 392 10.2.2.3 Glass 393 10.3 Applications 395 10.3.1 Manipulation of Water Droplets 395 10.3.2 Anisotropie Wetting 398 10.3.3 Dust Removal 399 10.3.4 Electrowetting 400 10.3.5 Reduced Ice Friction 403 10.3.6 MEMS 403 10.3.7 Microfluidics 404 10.4 Prospects 404 10.5 Summary 406 Acknowledgement 406 References 407 The book contains a wtatth of information on fundamental and applied aspects of laser surface modification in an easily accessible, unified and comprehensive manner The book provides a unique overview on laser techniques and applications for the purpose of improving adhesion by altering surface chemistry and topography/morphology of the substrate. It details laser surface modification techniques for a wide range of industrially relevant materials (plastics, metals, ceramics, composites) with the aim to improve and enhance their adhesion to other materials; the joining of different materials is of critical importance in the fabrication of many and varied products. Laser Surface Modification and Adhesion is divided into two parts: Part 1: Laser Surface Treatment/ Modification to Enhance Adhesion, and Part 2: Other Effects/Implications of Laser Surface Treatment. The topics covered include: • Nd:YAG laser surface treatment of various materiais to enhance adhesion • effects of excimer laser treatment on self-adhesion strength of some commodity and engineering plastics • laser surface pretreatment of carbon fiber-reinforced plastics for adhesive bonding • laser surface modification of fibers for improving fiber-resin interfacial interactions in composites • effect of laser surface modification on the adhesion of dental restorative materials • fundamentals of laser-polymer interactions and their relevance to polymer metallization • laser patterning of carbon/polymer bipolar plates for fuel cell applications • parameters governing the wettability characteristics of laser modified engineering materials • laser surface engineering of polymeric materials and the effects on wettability characteristics • water adhesion to laser-treated surfaces. Readership The book will be of critical importance to researchers in materials science, physics and chemistry, as well as R&D personnel in a host of industries (e.g., microelectronics, automotive, packaging, adhesive bonding, printing, metallized plastics, aerospace, dentistry, textiles, biomedical) where manufacturing success depends on suitable surface modification. Kashmiri Lai Mittal, was employed by the IBM Corporation from 1972 through 1993. Currently, he is teaching and consulting worldwide in the broad areas of adhesion as well aş surface cleaning. He has received numerous awards and honors including the title of doctor honoris causa from Maria Curie- Skłodowska University, Lublin, Poland. He is the editor of more than 115 books dealing with adhesion measurement, adhesion of polymeric coatings, polymer surfaces, adhesive joints, adhesion promoters, thin films, polyimides, surface modification, surface cleaning, and surfactants. Dr. Mittat is also the Founding Editor of the journal Reviews of Adhesion and Adhesives. Thomas Bahners, studied physics at the universities of Münster and RWTH Aachen from 1974 to 1981. He has been a research scientist at the Deutsches Textil-forschungszentrum Nord-West (DTNW), Krefeld from November 1982. in 1987 he obtained his PhD in physical chemistry at the University of Duisburg where he is now the Head of Department of Physical Technologies whose research focuses on soft matter material science, polymer physics, and surface design by means of physical technologies. He has supervised about 50 research projects funded by companies or national/European research programs, and published about 185 journal articles and book chapters.
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spelling	Laser surface modification and adhesion edited by K. L. Mittal and Thomas Bahners Hoboken, NJ Wiley 2015 XVII, 418 Seiten Illustrationen, Diagramme txt rdacontent n rdamedia nc rdacarrier Adhesion and adhesives: fundamental and applied aspects Surfaces (Technology) Lasers Adhesion Adhesion fast Lasers fast Surfaces (Technology) fast Oberflächenbehandlung (DE-588)4042908-8 gnd rswk-swf Laserbearbeitung (DE-588)4139080-5 gnd rswk-swf Laserbearbeitung (DE-588)4139080-5 s Oberflächenbehandlung (DE-588)4042908-8 s DE-604 Mittal, K. L. 1945- Sonstige (DE-588)139321454 oth Bahners, Thomas Sonstige oth Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027498500&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027498500&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA Klappentext
spellingShingle	Laser surface modification and adhesion Surfaces (Technology) Lasers Adhesion Adhesion fast Lasers fast Surfaces (Technology) fast Oberflächenbehandlung (DE-588)4042908-8 gnd Laserbearbeitung (DE-588)4139080-5 gnd
subject_GND	(DE-588)4042908-8 (DE-588)4139080-5
title	Laser surface modification and adhesion
title_auth	Laser surface modification and adhesion
title_exact_search	Laser surface modification and adhesion
title_full	Laser surface modification and adhesion edited by K. L. Mittal and Thomas Bahners
title_fullStr	Laser surface modification and adhesion edited by K. L. Mittal and Thomas Bahners
title_full_unstemmed	Laser surface modification and adhesion edited by K. L. Mittal and Thomas Bahners
title_short	Laser surface modification and adhesion
title_sort	laser surface modification and adhesion
topic	Surfaces (Technology) Lasers Adhesion Adhesion fast Lasers fast Surfaces (Technology) fast Oberflächenbehandlung (DE-588)4042908-8 gnd Laserbearbeitung (DE-588)4139080-5 gnd
topic_facet	Surfaces (Technology) Lasers Adhesion Oberflächenbehandlung Laserbearbeitung
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027498500&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027498500&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT mittalkl lasersurfacemodificationandadhesion AT bahnersthomas lasersurfacemodificationandadhesion

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