Notice bibliographique
- Notice
Type(s) de contenu et mode(s) de consultation : Texte noté : électronique
Auteur(s) : Wuthrich, Rolf
Titre(s) : Micromachining Using Electrochemical Discharge Phenomenon [Texte électronique] : Fundamentals and Application of Spark Assisted Chemical Engraving
Édition : 2nd ed.
Publication : Burlington : Elsevier Science, 2015
Description matérielle : 1 online resource (219 pages)
Collection : Micro and Nano Technologies
Note(s) : Print version record.
Autre(s) auteur(s) : Abou Ziki, Jana D.. Fonction indéterminée
Autre(s) forme(s) du titre :
- Autre forme du titre : Micromaching using electrochemical discharge phenomenon
- Autre forme du titre : Micro and Nano Technologies
Sujet(s) : Décharges électriques -- Applications industrielles
Usinage électrolytique
Micro-usinage
Gravure par plasma
Indice(s) Dewey :
620.5 (23e éd.) = Nanotechnologie
Identifiants, prix et caractéristiques : ISBN 9780323241427
Identifiant de la notice : ark:/12148/cb446409847
Notice n° :
FRBNF44640984
(notice reprise d'un réservoir extérieur)
Table des matières : 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.