Micromachining Using Electrochemical Discharge Phenomenon (2nd Ed.) Fundamentals and Application of Spark Assisted Chemical Engraving Micro and Nano Technologies Series
Auteurs : Wuthrich Rolf, Abou Ziki Jana D.
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 Assisted Chemical Engraving (SACE). As such, it covers technologies such as chemical etching, micro-drilling, and other material removal mechanisms, high aspect ratio machining, design and construction of the machining apparatus, and a wide range of applications.The new edition compares Micro-ECDM and SACE with other micromachining technologies such as laser machining and traditional EDM.ECDM is used for machining of electrically non-conductive materials. Micro-ECDM/SACE is mainly applied to glass and the book focuses on glass, but the authors also present new results on other materials such as ceramics. In addition, techniques to modify material properties for the machining process are explained.The authors discuss machining strategies including the latest developments in micro-texturing of glass micro-channels and reports on developments in controlling and analysis aspects of machining.This book is a unique reference for engineers and industrial researchers involved in development, design and use of micromachining, chemical micro-drilling or chemical engraving techniques and equipment.
1. Machining with Electrochemical Discharges—An Overview2. Historical Overview of Electrochemical Discharges3. Gas Evolving Electrodes4. The Gas Film—A Key Element5. Material Removal Mechanism6. Common Machining Strategies7. Controlling the Machining Process8. Designing a SACE Micromachining Set-up9. Outlook
- Only all-encompassing reference coving Micro-ECDM and SACE available on the market
- Covers a wide range of applications, including applications in the MEMS industry and the Medical Devices and Medical Diagnostics industries
- New edition includes expanded sections on comparing Micro-ECDM/SACE with other micromachining technologies
Date de parution : 10-2018
Ouvrage de 218 p.
19x23.3 cm
Publication abandonnée
Date de parution : 11-2014
Ouvrage de 218 p.
19x23.3 cm
Épuisé
Thème de Micromachining Using Electrochemical Discharge Phenomenon :
Mots-clés :
Applications; Bubble formation; Bubble layer; Configuration; Constant velocity feed; Contact glow discharge electrolysis; Current; Design; Discharge; Drilling; Electrical discharge machining (EDM); Electrochemical discharge; Electrochemical machining (ECM); Electrochemical potential; Electrochemistry; Electrode; Electron; Gas film; Gas-evolving electrode; Gas-film lifetime; Glow discharge electrolysis; Gravity feed; Gravity feed drilling; Machining; Machining gap; Machining strategy; Mechanical machining; Microhole; Micromachining; Nanoparticles; Nanoscience; Overpotential; Poisson distribution; Potential; Process control; Research; SACE; Set-up; Spark-assisted chemical engraving (SACE); Spectra; Thermal machining; Tool-electrode; Travelling wire electrochemical discharge machining (TW-ECDM)
