LEADER 05459nam  22006973u 450 
001 9911006853703321
005 20230120003908.0
010   $a0-08-052402-8
035   $a(CKB)111056552532116
035   $a(EBL)1061941
035   $a(OCoLC)818819956
035   $a(SSID)ssj0000072516
035   $a(PQKBManifestationID)11107616
035   $a(PQKBTitleCode)TC0000072516
035   $a(PQKBWorkID)10095008
035   $a(PQKB)10862953
035   $a(MiAaPQ)EBC1061941
035   $a(EXLCZ)99111056552532116
100   $a20140113d2000||||  u||         |
101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
182   $cc
183   $acr
200 10$aMetal Machining $eTheory and Applications
210   $aBurlington $cElsevier Science$d2000
215   $a1 online resource (420 p.)
300   $aDescription based upon print version of record.
311   $a0-340-69159-X 
327   $aFront Cover; Metal Machining: Theory and Applications; Copyright Page; Table of Contents; Preface; Chapter 1. Introduction; 1.1 Machine tool technology; 1.2 Manufacturing systems; 1.3 Materials technology; 1.4 Economic optimization of machining; 1.5 A forward look; References; Chapter 2. Chip formation fundamentals; 2.1 Historical introduction; 2.2 Chip formation mechanics; 2.3 Thermal modelling; 2.4 Friction, lubrication and wear; 2.5 Summary; References; Chapter 3. Work and tool materials; 3.1 Work material characteristics in machining; 3.2 Tool materials; References; Chapter 4. Tool damage
327   $a4.1 Tool damage and its classification4.2 Tool life; 4.3 Summary; References; Chapter 5. Experimental methods; 5.1 Microscopic examination methods; 5.2 Forces in machining; 5.3 Temperatures in machining; 5.4 Acoustic emission; References; Chapter 6. Advances in mechanics; 6.1 Introduction; 6.2 Slip-line field modelling; 6.3 Introducing variable flow stress behaviour; 6.4 Non-orthogonal (three-dimensional) machining; References; Chapter 7. Finite element methods; 7.1 Finite element background; 7.2 Historical developments; 7.3 The Iterative Convergence Method (ICM)
327   $a7.4 Material flow stress modelling for finite element analysesReferences; Chapter 8. Applications of finite element analysis; 8.1 Simulation of BUE formation; 8.2 Simulation of unsteady chip formation; 8.3 Machinability analysis of free cutting steels; 8.4 Cutting edge design; 8.5 Summary; References; Chapter 9. Process selection, improvement and control; 9.1 Introduction; 9.2 Process models; 9.3 Optimization of machining conditions and expert system applications; 9.4 Monitoring and improvement of cutting states; 9.5 Model-based systems for simulation and control of machining processes
327   $aReferencesAppendices; Appendix1: Metals' plasticity, and its finite element formulation; A1.1Yielding and flow under triaxial stresses: initial concepts; A1.2 The special case of perfectly plastic material in plane strain; A1.3Yielding and flow in a triaxial stress state: advanced analysis; A1.4 Constitutive equations for numerical modelling; A1.5Finite element formulations; References; Appendix2: Conduction and convection of heat in solids; A2.1 The differential equation for heat flow in a solid; A2.2 Selected problems, with no convection; A2.3 Selected problems, with convection
327   $aA2.4 Numerical (finite element) methodsReferences; Appendix3: Contact mechanics and friction; A3.1 Introduction; A3.2 The normal contact of a single asperity on an elastic foundation; A3.3 The normal contact of arrays of asperities on an elastic foundation; A3.4 Asperities with traction, on an elastic foundation; A3.5 Bulk yielding; A3.6 Friction coefficients greater than unity; References; Appendix4: Workmaterial: typical mechanical and thermal behaviours; A4.1 Work material: room temperature, low strain rate, strain hardeningbehaviours; A4.2 Work material: thermal properties
327   $aA4.3 Work material: strain hardening behaviours at high strain rates and temperatures
330   $aMetal machining is the most widespread metal-shaping process in the mechanical manufacturing industry. World-wide investment in metal machining tools increases year on year - and the wealth of nations can be judged by it. This text - the most up-to-date in the field - provides in-depth discussion of the theory and application of metal machining at an advanced level. It begins with an overview of the development of metal machining and its role in the current industrial environment and continues with a discussion of the theory and practice of machining. The underlying mechanics are analysed in d
606   $aMetal-cutting
606   $aMetal-cutting
606   $aMechanical Engineering$2HILCC
606   $aEngineering & Applied Sciences$2HILCC
606   $aMechanical Engineering - General$2HILCC
615  4$aMetal-cutting.
615  0$aMetal-cutting.
615  7$aMechanical Engineering
615  7$aEngineering & Applied Sciences
615  7$aMechanical Engineering - General
676   $a671
676   $a671.3/5
676   $a671.35
676   $a671.35
700   $aMaekawa$b K$096722
701   $aObikawa$b T$01821785
701   $aYamane$b Y$0369512
701   $aChilds$b T.H.C$01821786
801  0$bAU-PeEL
801  1$bAU-PeEL
801  2$bAU-PeEL
906   $aBOOK
912   $a9911006853703321
996   $aMetal Machining$94387657
997   $aUNINA