E-Book, Englisch, 75 Seiten
Gupta / Jain / Laubscher Hybrid Machining Processes
1. Auflage 2016
ISBN: 978-3-319-25922-2
Verlag: Springer Nature Switzerland
Format: PDF
Kopierschutz: 1 - PDF Watermark
Perspectives on Machining and Finishing
E-Book, Englisch, 75 Seiten
Reihe: Manufacturing and Surface Engineering
ISBN: 978-3-319-25922-2
Verlag: Springer Nature Switzerland
Format: PDF
Kopierschutz: 1 - PDF Watermark
This book describes various hybrid machining and finishing processes. It gives a critical review of the past work based on them as well as the current trends and research directions. For each hybrid machining process presented, the authors list the method of material removal, machining system, process variables and applications. This book provides a deep understanding of the need, application and mechanism of hybrid machining processes.
Autoren/Hrsg.
Weitere Infos & Material
1;Preface;6
2;Contents;8
3;1 Overview of Hybrid Machining Processes;10
3.1;Abstract;10
3.2;1.1 Evolution of Advanced Machining Processes;10
3.3;1.2 Need and Introduction of Hybrid Machining Processes;13
3.4;1.3 Classification of Hybrid Machining Processes;13
3.5;1.4 Applications of Hybrid Machining Processes;16
3.6;References;16
4;2 Electrochemical Hybrid Machining Processes;17
4.1;Abstract;17
4.2;2.1 Electrochemical Grinding (ECG);18
4.2.1;2.1.1 Introduction;18
4.2.2;2.1.2 Equipment and Working Principle;18
4.2.3;2.1.3 Process Mechanism and Parameters;19
4.2.4;2.1.4 Advantages, Limitations and Applications;21
4.3;2.2 Electrochemical Honing (ECH) and Pulsed ECH;21
4.3.1;2.2.1 Introduction;21
4.3.2;2.2.2 Equipment and Working Principle;22
4.3.2.1;2.2.2.1 Finishing of Internal Cylinders by ECH;22
4.3.2.2;2.2.2.2 Finishing of Gears by ECH;23
4.3.3;2.2.3 Process Parameters and Mechanism;27
4.3.4;2.2.4 Advantages, Limitations and Applications;28
4.4;2.3 Electrochemical Buffing (ECB);29
4.4.1;2.3.1 Introduction;29
4.4.2;2.3.2 Equipment and Process Mechanism;29
4.4.3;2.3.3 Applications;30
4.5;2.4 Electrochemical Deburring (ECDe);31
4.5.1;2.4.1 Introduction;31
4.5.2;2.4.2 Process Details;31
4.5.3;2.4.3 Advantages and Applications;32
4.6;2.5 Electrochemical Superfinishing (ECSF);32
4.6.1;2.5.1 Introduction;32
4.6.2;2.5.2 Equipment and Working Principle;33
4.6.3;2.5.3 Process Mechanism and Parameters;34
4.6.4;2.5.4 Applications;34
4.7;2.6 Electrochemical-Type Advanced Drilling Processes;35
4.7.1;2.6.1 Electrochemical Drilling (ECD);35
4.7.2;2.6.2 Shaped Tube Electrodrilling (STED);37
4.7.3;2.6.3 Capillary Drilling (CD);38
4.7.4;2.6.4 Electrolytic Stream or Jet Drilling (ESD or EJD);38
4.8;References;39
5;3 Thermal Hybrid Machining Processes;41
5.1;Abstract;41
5.2;3.1 EDM Combined with Conventional Machining;41
5.2.1;3.1.1 Electric Discharge Grinding (EDG);41
5.2.1.1;3.1.1.1 Introduction;41
5.2.1.2;3.1.1.2 Equipment and Working Principle;42
5.2.1.3;3.1.1.3 Process Mechanism and Parameters;43
5.2.1.4;3.1.1.4 Applications;43
5.2.2;3.1.2 Electric Discharge Abrasive or Diamond Grinding (EDAG or EDDG);43
5.2.2.1;3.1.2.1 Process Details;43
5.2.2.2;3.1.2.2 Applications;45
5.3;3.2 EDM Combined with ECM;45
5.3.1;3.2.1 Electrochemical Discharge Machining (ECDM);45
5.3.1.1;3.2.1.1 Introduction;45
5.3.1.2;3.2.1.2 Equipment and Working Principle;46
5.3.1.3;3.2.1.3 Process Mechanism and Parameters;47
5.3.1.4;3.2.1.4 Applications;48
5.3.2;3.2.2 Electrochemical Discharge Grinding (ECDG);49
5.3.2.1;3.2.2.1 Process Details;49
5.3.2.2;3.2.2.2 Applications;50
5.4;References;51
6;4 Assisted Hybrid Machining Processes;53
6.1;Abstract;53
6.2;4.1 Vibration-Assisted HMPs;54
6.2.1;4.1.1 Ultrasonic-Assisted ECM (USECM);55
6.2.1.1;4.1.1.1 Introduction;55
6.2.1.2;4.1.1.2 Equipment and Working Principle;55
6.2.1.3;4.1.1.3 Process Mechanism and Parameters;56
6.2.1.4;4.1.1.4 Applications;57
6.2.2;4.1.2 Ultrasonic-Assisted EDM (USEDM);57
6.2.2.1;4.1.2.1 Introduction;57
6.2.2.2;4.1.2.2 Equipment and Working Principle;58
6.2.2.3;4.1.2.3 Process Mechanism and Parameters;59
6.2.2.4;4.1.2.4 Applications;59
6.3;4.2 Heat-Assisted HMPs;60
6.3.1;4.2.1 Laser-Assisted ECM (LAECM);60
6.3.1.1;4.2.1.1 Introduction;60
6.3.1.2;4.2.1.2 Equipment and Working Principle;61
6.3.1.3;4.2.1.3 Process Mechanism and Parameters;62
6.3.1.4;4.2.1.4 Applications;63
6.3.2;4.2.2 Laser-Assisted EDM (LAEDM);63
6.3.2.1;4.2.2.1 Introduction;63
6.3.2.2;4.2.2.2 Working Principle and Applications;63
6.4;4.3 Abrasive-Assisted HMPs;64
6.4.1;4.3.1 Abrasive-Assisted ECM (AECM);65
6.4.1.1;4.3.1.1 Process Details;65
6.4.1.2;4.3.1.2 Applications;66
6.4.2;4.3.2 Abrasive-Assisted EDM (AEDM);66
6.4.2.1;4.3.2.1 Process Details;66
6.4.2.2;4.3.2.2 Applications;68
6.5;4.4 Magnetic Field-Assisted HMPs;68
6.5.1;4.4.1 Magnetic Field-Assisted EDM (MAEDM);68
6.5.2;4.4.2 Magnetic Field-Assisted Abrasive Flow Machining (MAAFM);69
6.5.2.1;4.4.2.1 Introduction and Limitations of AFM;70
6.5.2.2;4.4.2.2 Details of MAAFM;70
6.6;References;72
7;Index;74
