Verfügbarkeit: Real-time weld process monitoring

Real-time weld process monitoring:

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Format:	Buch
Sprache:	English
Veröffentlicht:	Cambridge Woodhead 2008
Ausgabe:	1. ed.
Schriftenreihe:	Woodhead publishing in materials
Schlagworte:	Mathematisches Modell Welding > Mathematical models Welding > Quality control Prozessüberwachung Echtzeitverarbeitung Schweißen
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	X, 299 S. Ill., graph. Darst.
ISBN:	9781845692681

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Datensatz im Suchindex

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adam_text	Contents Contributor contact details ix 1 An analysis of welding process monitoring and control 1 Y.-M. Zhang, University of Kentucky, USA 1.1 Introduction 1 1-2 Welding process as a system 1 1.3 Welding process as a complex system 4 1.4 Welding process as an uncertain system 6 1-5 Monitoring of welding processes 7 1.6 Overview of the book 10 1.7 References 11 Part I Monitoring technologies 13 2 Arc sensors in weld monitoring 15 G. E. Cook, A. M. Strauss, D. H. Lammlein and P. A. Fleming, Vanderbilt University, USA 21 Introduction 15 2.2 Background 15 2-3 Non-consumable electrode processes 20 24 Consumable electrode processes 25 2.5 Power supply considerations 31 26 Signal processing and control approaches 36 2.7 Future trends 39 2.8 Sources of further information and advice 41 29 List of symbols and abbreviations 41 2.10 References 43 VI Contents 3 Optical sensors in welding 45 G. M. Saeed, Schlumberger, USA and H. Song, University of Kentucky, USA 3.1 Introduction 45 3.2 Knowledge of optics 46 3.3 Optical sensor component 52 3.4 Optical sensing system 62 3.5 Application of optical sensors 69 3.6 References 72 4 Infrared sensors in welding 74 H. Yang, H. C Wikle, S. Nagarajan, M. Johnson, P. Banerjee and B. A. Chin, Auburn University, USA 4.1 Introduction 74 4.2 Theory of infrared sensors 74 4.3 Measurement of weld temperature distribution 80 4.4 Infrared sensors for real-time weld quality control 82 4.5 Summary 99 4.6 References 99 5 Ultrasonic sensors in welding 104 J. Shao and Y. Yan, University of Kent, UK 5.1 Introduction 104 5.2 Principles of ultrasonic sensing 105 5.3 Ultrasonic techniques and their applications 110 5.4 Future trends 122 5.5 Summary 123 5.6 Sources of further information and advice 124 5.7 References 124 Partii Monitoring of welding processes 129 6 Weld seam monitoring 131 S.-J. Na, Korea Advanced Institute of Science and Technology, Korea 6.1 Introduction 131 6.2 Methods of weld seam monitoring 131 6.3 Through-arc monitoring of weld seams in gas metal arc welding 132 6.4 Electromagnetic monitoring of weld seams in gas metal arc welding 150 6.5 Laser visual monitoring of weld seams in gas metal arc welding 152 6.6 References 162 Contents vii 7 Weld profile monitoring 164 L. Wu and G.-J. Zhang, Harbin Institute of Technology, China 7.1 Necessity for weld profile measurement 164 7.2 Outline of weld profile 165 7.3 Surface shaping defects 170 7.4 Automatic detection of weld profile 172 7.5 References 184 8 Weld penetration monitoring 186 W. Lu, Cummins Inc., USA and Y.-M. Zhang, University of Kentucky, USA 8.1 Introduction 186 8.2 Weld pool oscillation sensor 187 8.3 Infrared sensor 191 8.4 Ultrasonic sensor 193 8.5 Vision-based sensor 195 8.6 Weld pool sag depression 196 8.7 Plasma charge-based sensors 199 8.8 Weld penetration control using sensor feedback 205 8.9 Summary 209 8.10 References 211 9 Weld pool surface monitoring 213 С S. Wu, Institute for Materials Joining, Shandong University, China 9.1 Vision-based sensing 2D surface geometry of weld pool in gas tungsten arc welding 213 9.2 Sensing 2D weld pool boundary in gas metal arc welding 217 9.3 Modeling and simulation of weld pool surface 220 9.4 Sensing 3D weld pool surface using specular reflection 229 9.5 Improvement on observation of dynamic 3D weld pool surface 232 9.6 References 236 10 Monitoring resistance welding 238 D. F. Farson, The Ohio State University, USA 10.1 Introduction 238 10.2 Resistance spot welding systems, weld formation and signals 23 10.3 Real-time process monitoring and control 245 10.4 Future trends 255 viii Contents 10.5 Sources of further information and advice 258 10.6 Acknowledgment 258 10.7 References 258 11 Monitoring laser welding 260 A. Ancona and T. Sibillano, CNR-INFM LIT3, Italy 11.1 Introduction 260 11.2 Principles of laser welding 260 11.3 Optical sensing 263 11.4 Frequency analyses of acoustic and optical emissions 274 11.5 Smart systems 278 11.6 Other systems and future trends 280 11.7 References 284 Index 289
adam_txt	Contents Contributor contact details ix 1 An analysis of welding process monitoring and control 1 Y.-M. Zhang, University of Kentucky, USA 1.1 Introduction 1 1-2 Welding process as a system 1 1.3 Welding process as a complex system 4 1.4 Welding process as an uncertain system 6 1-5 Monitoring of welding processes 7 1.6 Overview of the book 10 1.7 References 11 Part I Monitoring technologies 13 2 Arc sensors in weld monitoring 15 G. E. Cook, A. M. Strauss, D. H. Lammlein and P. A. Fleming, Vanderbilt University, USA 21 Introduction 15 2.2 Background 15 2-3 Non-consumable electrode processes 20 24 Consumable electrode processes 25 2.5 Power supply considerations 31 26 Signal processing and control approaches 36 2.7 Future trends 39 2.8 Sources of further information and advice 41 29 List of symbols and abbreviations 41 2.10 References 43 VI Contents 3 Optical sensors in welding 45 G. M. Saeed, Schlumberger, USA and H. Song, University of Kentucky, USA 3.1 Introduction 45 3.2 Knowledge of optics 46 3.3 Optical sensor component 52 3.4 Optical sensing system 62 3.5 Application of optical sensors 69 3.6 References 72 4 Infrared sensors in welding 74 H. Yang, H. C Wikle, S. Nagarajan, M. Johnson, P. Banerjee and B. A. Chin, Auburn University, USA 4.1 Introduction 74 4.2 Theory of infrared sensors 74 4.3 Measurement of weld temperature distribution 80 4.4 Infrared sensors for real-time weld quality control 82 4.5 Summary 99 4.6 References 99 5 Ultrasonic sensors in welding 104 J. Shao and Y. Yan, University of Kent, UK 5.1 Introduction 104 5.2 Principles of ultrasonic sensing 105 5.3 Ultrasonic techniques and their applications 110 5.4 Future trends 122 5.5 Summary 123 5.6 Sources of further information and advice 124 5.7 References 124 Partii Monitoring of welding processes 129 6 Weld seam monitoring 131 S.-J. Na, Korea Advanced Institute of Science and Technology, Korea 6.1 Introduction 131 6.2 Methods of weld seam monitoring 131 6.3 Through-arc monitoring of weld seams in gas metal arc welding 132 6.4 Electromagnetic monitoring of weld seams in gas metal arc welding 150 6.5 Laser visual monitoring of weld seams in gas metal arc welding 152 6.6 References 162 Contents vii 7 Weld profile monitoring 164 L. Wu and G.-J. Zhang, Harbin Institute of Technology, China 7.1 Necessity for weld profile measurement 164 7.2 Outline of weld profile 165 7.3 Surface shaping defects 170 7.4 Automatic detection of weld profile 172 7.5 References 184 8 Weld penetration monitoring 186 W. Lu, Cummins Inc., USA and Y.-M. Zhang, University of Kentucky, USA 8.1 Introduction 186 8.2 Weld pool oscillation sensor 187 8.3 Infrared sensor 191 8.4 Ultrasonic sensor 193 8.5 Vision-based sensor 195 8.6 Weld pool sag depression 196 8.7 Plasma charge-based sensors 199 8.8 Weld penetration control using sensor feedback 205 8.9 Summary 209 8.10 References 211 9 Weld pool surface monitoring 213 С S. Wu, Institute for Materials Joining, Shandong University, China 9.1 Vision-based sensing 2D surface geometry of weld pool in gas tungsten arc welding 213 9.2 Sensing 2D weld pool boundary in gas metal arc welding 217 9.3 Modeling and simulation of weld pool surface 220 9.4 Sensing 3D weld pool surface using specular reflection 229 9.5 Improvement on observation of dynamic 3D weld pool surface 232 9.6 References 236 10 Monitoring resistance welding 238 D. F. Farson, The Ohio State University, USA 10.1 Introduction 238 10.2 Resistance spot welding systems, weld formation and signals 23" 10.3 Real-time process monitoring and control 245 10.4 Future trends 255 viii Contents 10.5 Sources of further information and advice 258 10.6 Acknowledgment 258 10.7 References 258 11 Monitoring laser welding 260 A. Ancona and T. Sibillano, CNR-INFM LIT3, Italy 11.1 Introduction 260 11.2 Principles of laser welding 260 11.3 Optical sensing 263 11.4 Frequency analyses of acoustic and optical emissions 274 11.5 Smart systems 278 11.6 Other systems and future trends 280 11.7 References 284 Index 289
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spelling	Real-time weld process monitoring ed. by YuMing Zhang 1. ed. Cambridge Woodhead 2008 X, 299 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Woodhead publishing in materials Mathematisches Modell Welding Mathematical models Welding Quality control Prozessüberwachung (DE-588)4133922-8 gnd rswk-swf Echtzeitverarbeitung (DE-588)4151002-1 gnd rswk-swf Schweißen (DE-588)4053870-9 gnd rswk-swf Schweißen (DE-588)4053870-9 s Prozessüberwachung (DE-588)4133922-8 s Echtzeitverarbeitung (DE-588)4151002-1 s DE-604 Zhang, Yu Ming Sonstige oth Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016563680&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Real-time weld process monitoring Mathematisches Modell Welding Mathematical models Welding Quality control Prozessüberwachung (DE-588)4133922-8 gnd Echtzeitverarbeitung (DE-588)4151002-1 gnd Schweißen (DE-588)4053870-9 gnd
subject_GND	(DE-588)4133922-8 (DE-588)4151002-1 (DE-588)4053870-9
title	Real-time weld process monitoring
title_auth	Real-time weld process monitoring
title_exact_search	Real-time weld process monitoring
title_exact_search_txtP	Real-time weld process monitoring
title_full	Real-time weld process monitoring ed. by YuMing Zhang
title_fullStr	Real-time weld process monitoring ed. by YuMing Zhang
title_full_unstemmed	Real-time weld process monitoring ed. by YuMing Zhang
title_short	Real-time weld process monitoring
title_sort	real time weld process monitoring
topic	Mathematisches Modell Welding Mathematical models Welding Quality control Prozessüberwachung (DE-588)4133922-8 gnd Echtzeitverarbeitung (DE-588)4151002-1 gnd Schweißen (DE-588)4053870-9 gnd
topic_facet	Mathematisches Modell Welding Mathematical models Welding Quality control Prozessüberwachung Echtzeitverarbeitung Schweißen
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016563680&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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