Details

Laser in Manufacturing


Laser in Manufacturing


1. Aufl.

von: J. Paulo Davim

CHF 115.00

Verlag: Wiley
Format: PDF
Veröffentl.: 04.03.2013
ISBN/EAN: 9781118562918
Sprache: englisch
Anzahl Seiten: 256

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Beschreibungen

<p>Generally a laser (light amplification by stimulated emission of radiation) is defined as “a device which uses a quantum mechanical effect, stimulated emission, to generate a coherent beam of light from a lasing medium of controlled purity, size, and shape”. Laser material processing represents a great number of methods, which are rapidly growing in current and different industrial applications as new alternatives to traditional manufacturing processes. Nowadays, the use of lasers in manufacturing is an emerging area with a wide variety of applications, for example, in electronics, molds and dies, and biomedical applications.<br /> The purpose of this book is to present a collection of examples illustrating the state of the art and research developments to lasers in manufacturing, covering laser rapid manufacturing, lasers in metal forming applications, laser forming of metal foams, mathematical modeling of laser drilling, thermal stress analysis, modeling and simulation of laser welding, and the use of lasers in surface engineering.<br /> This book can be used as a research book for a final undergraduate engineering course or as a subject on lasers in manufacturing at the postgraduate level. Also, this book can serve as a useful reference for academics, laser researchers, mechanical, manufacturing, materials or physics engineers, or professionals in any related modern manufacturing technology.</p> <p>Contents</p> <p>1. Laser Rapid Manufacturing: Technology, Applications, Modeling and Future Prospects, Christ P. Paul, Pankaj Bhargava, Atul Kumar, Ayukt K. Pathak and Lalit M. Kukreja.<br /> 2. Lasers in Metal Forming Applications, Stephen A. Akinlabi, Mukul Shukla, Esther T. Akinlabi and Tshilidzi Marwala.<br /> 3. Laser Forming of Metal Foams, Fabrizio Quadrini, Denise Bellisario, Erica A. Squeo and Loredana Santo.<br /> 4. Mathematical Modeling of Laser Drilling, Maturose Suchatawat and Mohammad Sheikh.<br /> 5. Laser Cutting a Small Diameter Hole: Thermal Stress Analysis, Bekir S. Yilbas, Syed S. Akhtar and Omer Keles.<br /> 6. Modeling and Simulation of Laser Welding, Karuppudaiyar R. Balasabramanian, Krishnasamy Sankaranarayanasamy and Gangusami N. Buvanashekaran.<br /> 7. Lasers in Surface Engineering, Alberto H. Garrido, Rubén González, Modesto Cadenas, Chin-Pei Wang and Farshid Sadeghi.</p>
<p><b>Preface xi</b><br /> J. Paolo DAVIM</p> <p><b>Chapter 1. Laser Rapid Manufacturing: Technology, Applications, Modeling and Future</b><br /> <b>Prospects 1</b><br /> Christ P. PAUL, Pankaj BHARGAVA, Atul KUMAR, Ayukt K. PATHAK and Lalit M. KUKREJA</p> <p>1.1. Introduction 1</p> <p>1.2. Laser rapid manufacturing 2</p> <p>1.3. Laser rapid manufacturing system 4</p> <p>1.4. Various laser rapid manufacturing systems 13</p> <p>1.5. Relevant processing parameters 16</p> <p>1.6. Typical applications of LRM 24</p> <p>1.7. LRM process modeling 41</p> <p>1.8. LRM process control 51</p> <p>1.9. Future prospects 57</p> <p>1.10. Conclusion 59</p> <p>1.11. Acknowledgments 60</p> <p>1.12. Bibliography 60</p> <p><b>Chapter 2. Lasers in Metal Forming Applications 69</b><br /> Stephen A. AKINLABI, Mukul SHUKLA, Esther T. AKINLABI and Tshilidzi MARWALA</p> <p>2.1. Introduction 69</p> <p>2.2. Laser 70</p> <p>2.3. Metal forming – introduction 72</p> <p>2.4. Laser beam forming 73</p> <p>2.5. LBF mechanisms 84</p> <p>2.6. Advantages and disadvantages of LBF 91</p> <p>2.7. LBF of a steel plate 92</p> <p>2.8. Design of experiments 95</p> <p>2.9. Sample characterization 100</p> <p>2.10. Conclusion 104</p> <p>2.11. Bibliography 104</p> <p><b>Chapter 3. Laser Forming of Metal Foams 109</b><br /> Fabrizio QUADRINI, Denise BELLISARIO, Erica A. SQUEO and Loredana SANTO</p> <p>3.1. Introduction 109</p> <p>3.2. Scientific background 110</p> <p>3.3. Materials and experimental methods 113</p> <p>3.4. Experimental results and discussion 117</p> <p>3.5. Numerical modeling 127</p> <p>3.6. Conclusions 134</p> <p>3.7. Bibliography 135</p> <p><b>Chapter 4. Mathematical Modeling of Laser Drilling 139</b><br /> Maturose SUCHATAWAT and Mohammad SHEIKH</p> <p>4.1. Introduction 139</p> <p>4.2. Solid heating 141</p> <p>4.3. Melting 145</p> <p>4.4. Vaporization 151</p> <p>4.5. Mathematical model of laser percussion drilling incorporating the effects of the exothermic<br /> reaction 156</p> <p>4.6. Experimental procedures for model verification 167</p> <p>4.7. Results and discussion 168</p> <p>4.8. Conclusion 173</p> <p>4.9. Bibliography 173</p> <p><b>Chapter 5. Laser Cutting a Small Diameter Hole: Thermal Stress Analysis 179</b><br /> Bekir S. YILBAS, Syed S. AKHTAR and Omer KELES</p> <p>5.1. Introduction 179</p> <p>5.2. Modeling heating and thermal stress 181</p> <p>5.3. Numerical simulation 184</p> <p>5.4. Experimental 185</p> <p>5.5. Results and discussion 186</p> <p>5.6. Conclusion 201</p> <p>5.7. Acknowledgements 201</p> <p>5.8. Bibliography 201</p> <p><b>Chapter 6. Modeling and Simulation of Laser Welding 203</b><br /> Karuppudaiyar R. BALASABRAMANIAN, Krishnasamy SANKARANARAYANASAMY and Gangusami N. BUVANASHEKARAN</p> <p>6.1. Introduction 204</p> <p>6.2. Process mechanisms 204</p> <p>6.3. Operating parameter characteristics 206</p> <p>6.4. Types 207</p> <p>6.5. Material considerations 209</p> <p>6.6. Applications of laser welding 211</p> <p>6.7. Strengths and limitations of laser welding 212</p> <p>6.8. Developments and advances in laser welding processes 213</p> <p>6.9. Modeling and analysis of the laser welding process 214</p> <p>6.10. A case study 220</p> <p>6.11. Comparison of statistical analysis, the finite element method and an ANN 241</p> <p>6.12. Conclusion 243</p> <p>6.13. Acknowledgment 244</p> <p>6.14. Bibliography 244</p> <p><b>Chapter 7. Lasers in Surface Engineering 247</b><br /> Alberto H. GARRIDO, Rubén GONZÁLEZ, Modesto CADENAS, Chin-Pei WANG and Farshid SADEGHI</p> <p>7.1. Introduction 248</p> <p>7.2. Characteristics of laser radiation 248</p> <p>7.3. Advantages of laser devices 249</p> <p>7.4. Laser surface cladding 250</p> <p>7.5. Laser surface cladding by powder injection 253</p> <p>7.6. Energetic study of the cladding process 257</p> <p>7.7. Control parameters of laser surface cladding 264</p> <p>7.8. Widely used materials and alloys 266</p> <p>7.9. Laser surface treatments 266</p> <p>7.10. Laser surface texturing techniques 272</p> <p>7.11. Characterization of laser surface texturing 285</p> <p>7.12. Bibliography 286</p> <p><b>List of Authors 293</b></p> <p><b>Index 297</b></p>
<p><b>Dr J. Paulo Davim</b> received his PhD degree in Mechanical Engineering from the University of Porto in 1997 and the Aggregation from the University of Coimbra in 2005. Between 1986/96, he was lecturer in University of Porto. Currently, he is an Aggregate Professor at the Department of Mechanical Engineering of the University of Aveiro and the Head of MACTRIB - Machining and Tribology Research Group and research experience in manufacturing, materials and mechanical engineering with special emphasis in Machining & Tribology. He is the Editor in Chief of six international journals, Guest Editor of journals, books Editor, book Series Editor and Scientific Advisory for many international journals and conferences. Presently, he is an Editorial Board member of 15 international journals and acts as reviewer for than 50 prestigious ISI web Science journals. In addition, he has also published as author and co-author more than 20 book chapters and 300 articles in journals and conferences.</p>

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