Micromachining using electrochemical discharge phenomenon : fundamentals and applications of spark assisted chemical engraving /

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Micro-machining is an advanced manufacturing technique of growing importance, and adoption of micro-machining using electrochemical discharges (Micro-ECDM) has increased steadily in recent years. Among new developments is the interest of industry in Micro-ECDM. However, the potential of the technolo...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autores principales: Wüthrich, Rolf (Autor), Ziki, Jana D. Abou (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Amsterdam : Elsevier, [2014]
©2015
Edición:Second edition.
Colección:Micro & nano technologies.
Temas:
Micromachining.
Electrochemical cutting.
Electric discharges > Industrial applications.
Plasma etching.
Micro-usinage.
Usinage électrolytique.
Décharges électriques > Applications industrielles.
Gravure par plasma.
electrochemical cutting.
TECHNOLOGY & ENGINEERING > Engineering (General)
TECHNOLOGY & ENGINEERING > Reference.
Electrochemical cutting
Micromachining
Plasma etching
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Micromachining Using Electrochemical Discharge Phenomenon: Fundamentals and Application of Spark Assisted Chemical Engraving; Copyright; Contents; Preface; CHAPTER 1
  • MACHINING WITH ELECTROCHEMICAL DISCHARGES-AN OVERVIEW; 1.1 SPARK-ASSISTED CHEMICAL ENGRAVING; 1.2 SACE AS A MICROMACHINING TECHNOLOGY; 1.3 SCOPE OF THE BOOK; PART 1 ELECTROCHEMICAL DISCHARGES; CHAPTER 2
  • HISTORICAL OVERVIEW OF ELECTROCHEMICAL DISCHARGES; 2.1 DISCOVERY AND EARLY APPLICATIONS; 2.2 THE WEHNELT INTERRUPTER; 2.3 SPECTRUM OF THE ELECTROCHEMICAL DISCHARGES; 2.4 NATURE OF THE ELECTROCHEMICAL DISCHARGES
  • 2.5 CONTACT GLOW DISCHARGE ELECTROLYSISCHAPTER 3
  • GAS-EVOLVING ELECTRODES; 3.1 INTRODUCTION TO ELECTROCHEMISTRY; 3.2 BUBBLE FORMATION DURING ELECTROLYSIS; 3.3 BUBBLE LAYER; 3.4 THE BUBBLE DIFFUSION REGION; 3.5 THE BUBBLE ADHERENCE REGION; 3.6 BUBBLE EVOLUTION ON A GAS-EVOLVING ELECTRODE; 3.7 MEAN STATIONARY CURRENT-VOLTAGE CHARACTERISTICS; CHAPTER 4
  • THE GAS FILM-A KEY ELEMENT; 4.1 FORMATION OF THE GAS FILM; 4.2 GAS FILM LIFETIME; 4.3 SHAPE OF THE GAS FILM; 4.4 DISCHARGE ACTIVITY INSIDE OF THE GAS FILM; 4.5 ACTIVE ELECTRODE TEMPERATURE; 4.6 CONTROLLING THE GAS FILM
  • PART 2 MICROMACHINING WITH ELECTROCHEMICAL DISCHARGESCHAPTER 5
  • MATERIAL REMOVAL MECHANISM; 5.1 GENERAL CONSIDERATIONS; 5.2 MACHINING AT LOW DEPTHS; 5.3 MACHINING AT HIGH DEPTHS; 5.4 CHEMICAL CONTRIBUTIONS; 5.5 SUMMARY; CHAPTER 6
  • COMMON MACHINING STRATEGIES; 6.1 GENERAL OVERVIEW; 6.2 GRAVITY-FEED DRILLING; 6.3 CONSTANT VELOCITY-FEED DRILLING; 6.4 2D AND 3D MACHINING; 6.5 WIRE ELECTROCHEMICAL DISCHARGE MACHINING; CHAPTER 7
  • CONTROLLING THE MACHINING PROCESS; 7.1 PROCESS ANALYSIS; 7.2 PROMOTING ETCHING; 7.3 CONTROLLING THE HEAT GENERATED; 7.4 CONTROLLING THE TOOL-WORKPIECE GAP
  • 7.5 SEARCHING FOR PROCESS CONTROL SIGNALS7.6 SUMMARY; CHAPTER 8
  • DESIGNING A SACE MICROMACHINING SET-UP; 8.1 GENERAL DESIGN RULES; 8.2 DRILLING SET-UPS; 8.3 2D MACHINING SET-UPS; 8.4 COMMERCIAL MACHINES; CHAPTER 9
  • OUTLOOK; REFERENCES; Index

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