04560nam 2200649 450 991082504570332120200520144314.00-323-26564-2(CKB)3710000000279286(EBL)1837701(SSID)ssj0001412855(PQKBManifestationID)11774079(PQKBTitleCode)TC0001412855(PQKBWorkID)11416053(PQKB)10890230(Au-PeEL)EBL1837701(CaPaEBR)ebr10989255(CaONFJC)MIL266602(OCoLC)895435044(CaSebORM)9780323241427(MiAaPQ)EBC1837701(EXLCZ)99371000000027928620141209h20152015 uy 0engur|n|---|||||txtccrMicromachining using electrochemical discharge phenomenon fundamentals and application of spark assisted chemical engraving /Rolf Wuthrich, Jana D. Abou ZikiSecond edition.Oxford, England ;Waltham, Massachusetts :William Andrew,2015.©20151 online resource (219 p.)Micro and Nano Technologies SeriesDescription based upon print version of record.0-323-24142-5 Includes bibliographical references and index.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 DISCHARGES2.5 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 FILMPART 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 GAP7.5 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 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 technology is not being fully utilized and there is no comprehensive reference book available today covering it. Micromachining Using Electrochemical Discharge Phenomenon, Second Edition fills this gap. It is unique in its detailed coverage of all aspects of the Micro-ECDM process, as well as Spark AssisteMicro & nano technologies.Electrochemical cuttingMicromachiningElectrochemical cutting.Micromachining.620/.5Wüthrich Rolf1618328Abou Ziki Jana D.MiAaPQMiAaPQMiAaPQBOOK9910825045703321Micromachining using electrochemical discharge phenomenon3949973UNINA