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High power lasers /

The use of lasers for the working and treatment of materials is becoming increasingly common in industry. However, certain laser applications, for example, in welding, cutting and drilling, are more widely exploited than others. Whilst the potential of lasers for the surface treatment of metals is w...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Niku-Lari, A., Mordike, Barry L.
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Oxford ; New York : Pergamon Press, 1989.
Edición:1st ed.
Colección:Technology transfer handbook series.
Temas:
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; High Power Lasers; Copyright Page; Technology Transfer Series; Preface; International Scientific Committee; Table of Contents; PART 1: LASER SURFACE TREATMENT; CHAPTER 1. PROPERTIES OF LASER NITRIDED SURFACE LAYERS ON TITANIUM; ABSTRACT; KEYWORDS; INTRODUCTION; ALLOYING TECHNIQUES; EXPERIMENTAL DETAILS; PROPERTIES OF THE LAYER; CONCLUSION; REFERENCES; CHAPTER 2. SURFACE TREATMENT BY MELTING WITH LASER; INTRODUCTION; MICROSTRUCTURAL EFFECTS; THERMAL MODELS; APPLICATION OF MODEL WITH VARIABLE HEAT FLUX; EXPERIMENTAL; CAST IRON; HIGH CARBON STEELS; REFERENCES.
  • Chapter 3. wear performance of laser melted steelsabstract; introduction; experimental procedure; results; characterization; wear performance; conclusions; acknowledgements; references; part 2: laser surface coating and alloying; chapter 4. plasma deposited laser remelted wear resistant layers; introduction; experimental details; results; conclusions; references; chapter 5. laser applications for steelsurface alloying with carbon; introduction; experimental; alloying by solid state diffusion; alloying by melting; conclusions; references.
  • Chapter 6. an experimental study on co2 500w laser surface alloying of chromium on copperabstract; introduction; experimental methods and materials; discussion of the results; conclusions; acknowledgments; references; chapter 7. laser surface modification of plasma sprayed oxide ceramic coat layer for anti-corrosion performance; abstract; introduction; characteristics of plasma sprayed oxide ceramics; laser remelting of plasma sprayed ceramic coat layer; laser surface modification of titania coat layer; laser surface modification of alumina coat layer; conclusion; acknowledgment; reference.
  • CHAPTER 8. EFFECT OF LASER MELTING ON EUTECTIUM OF BORIDING LAYER ONSTEELABSTRACT; INTRODUCTION; EXPERIMENTAL CONDITIONS; EXPERIMENTAL RESULTS; CONCLUSION; REFERENCES; PART 3: THE MECHANISM OF SURFACE MODIFICATION BY LASER; CHAPTER 9. THE EFFECT OF LASER IRRADIATION ON STRUCTURE AND MICROHARDNESS OF AISI 1045 STEEL; INTRODUCTION; EXPERIMENTAL PROCEDURE; RESULTS AND DISCUSSION; SUMMARY; ACKNOWLEDGMENTS; REFERENCES; CHAPTER 10. MICROSTRUCTURE AND MICROCRACKING OF LASER GLAZED Fe-B-C SURFACES; INTRODUCTION; MATERIALS AND EXPERIMENTAL PROCEDURE; EXPERIMENTAL RESULTS; DISCUSSION AND CONCLUSIONS.
  • Acknowledgmentchapter 11. effect of laser heating on the substructure of 0.4% carbon steel; synopsis; introduction; experimental; results and discussion; references; chapter 12. laser surface remelting and alloying of aluminium alloys; 1. introduction; 2. materials and treatments; 3. surface remelting-results and discussion; 4. surface alloy ing-results and discussion; 5. conclusions; chapter 13. coating design for laser transformation hardening; abstract; introduction; basic principles of laser transformation hardening; coatings for laser transformation hardening; coatings properties.