01259nam0-2200349---450-99000824883040332120070329115005.0000824883FED01000824883(Aleph)000824883FED0100082488320051220d1992----km-y0itay50------baitaITa-------001yyNotting Hillosservazioni geografiche su una "conservation area" londineseLuca RomagnoliGeografia delle culture minoritariegli zingari in Italiacaterina Bariloro<<Un >>esempio di integrazione funzionaleanalisi geo-topologica della rete dei trasporti in FinlandiaMaria Ludovica PaoluziRomaUniversità la Sapienza1992143 p.ill.24 cmSemestrale di studi e ricerche di GeografiaLondraItaliaMinoranzeFinlandiaTrasportiRomagnoli,Luca271226Barilaro,Caterina<1950- >748314Paoluzi,Maria Ludovica272015ITUNINARICAUNIMARCBK990008248830403321Per.it.043(92,1)I.G. s.i.ILFGEILFGENotting Hill1498520UNINA05540nam 2200721Ia 450 991078433780332120200520144314.01-281-01373-097866110137380-08-049651-2(CKB)1000000000350652(EBL)296768(OCoLC)437182144(SSID)ssj0000200124(PQKBManifestationID)11178980(PQKBTitleCode)TC0000200124(PQKBWorkID)10219815(PQKB)10453348(MiAaPQ)EBC296768(Au-PeEL)EBL296768(CaPaEBR)ebr10180907(CaONFJC)MIL101373(PPN)174665717(EXLCZ)99100000000035065220021125d2002 uy 0engur|n|---|||||txtccrMechanics of sheet metal forming[electronic resource]2nd ed /Z. Marciniak, J.L. Duncan, S.J. Hu.Oxford Butterworth-Heinemann20021 online resource (233 p.)Includes index.Previous ed.: London: Arnold, 1992.0-7506-5300-0 Front Cover; Mechanics of Sheet Metal Forming; Copyright Page; Contents; Preface to the second edition; Preface to the first edition; Disclaimer; Introduction; Chapter 1. Material properties; 1.1 Tensile test; 1.2 Effect of properties on forming; 1.3 Other mechanical tests; 1.4 Exercises; Chapter 2. Sheet deformation processes; 2.1 Introduction; 2.2 Uniaxial tension; 2.3 General sheet processes (plane stress); 2.4 Yielding in plane stress; 2.5 The flow rule; 2.6 Work of plastic deformation; 2.7 Work hardening hypothesis; 2.8 Effective stress and strain functions; 2.9 Summary; 2.10 ExercisesChapter 3. Deformation of sheet in plane stress3.1 Uniform sheet deformation processes; 3.2 Strain distributions; 3.3 Strain diagram; 3.4 Modes of deformation; 3.5 Effective stress-strain laws; 3.6 The stress diagram; 3.7 Principal tensions or tractions; 3.8 Summary; 3.9 Exercises; Chapter 4. Simplified stamping analysis; 4.1 Introduction; 4.2 Two-dimensional model of stamping; 4.3 Stretch and draw ratios in a stamping; 4.4 Three-dimensional stamping model; 4.5 Exercises; Chapter 5. Load instability and tearing; 5.1 Introduction; 5.2 Uniaxial tension of a perfect strip5.3 Tension of an imperfect strip5.4 Tensile instability in stretching continuous sheet; 5.5 Factors affecting the forming limit curve; 5.6 The forming window; 5.7 Exercises; Chapter 6. Bending of sheet; 6.1 Introduction; 6.2 Variables in bending a continuous sheet; 6.3 Equilibrium conditions; 6.4 Choice of material model; 6.5 Bending without tension; 6.6 Elastic unloading and springback; 6.7 Small radius bends; 6.8 The bending line; 6.9 Bending a sheet in a vee-die; 6.10 Exercises; Chapter 7. Simplified analysis of circular shells; 7.1 Introduction; 7.2 The shell element7.3 Equilibrium equations7.4 Approximate models of forming axisymmetric shells; 7.5 Applications of the simple theory; 7.6 Summary; 7.7 Exercises; Chapter 8. Cylindrical deep drawing; 8.1 Introduction; 8.2 Drawing the flange; 8.3 Cup height; 8.4 Redrawing cylindrical cups; 8.5 Wall ironing of deep-drawn cups; 8.6 Exercises; Chapter 9. Stretching circular shells; 9.1 Bulging with fluid pressure; 9.2 Stretching over a hemispherical punch; 9.3 Effect of punch shape and friction; 9.4 Exercises; Chapter 10. Combined bending and tension of sheet; 10.1 Introduction10.2 Stretching and bending an elastic, perfectly plastic sheet10.3 Bending and stretching a strain-hardening sheet; 10.4 Bending a rigid, perfectly plastic sheet under tension; 10.5 Bending and unbending under tension; 10.6 Draw-beads; 10.7 Exercises; Chapter 11. Hydroforming; 11.1 Introduction; 11.2 Free expansion of a cylinder by internal pressure; 11.3 Forming a cylinder to a square section; 11.4 Constant thickness forming; 11.5 Low-pressure or sequential hydroforming; 11.6 Summary; 11.7 Exercises; Appendix A1: Yielding in three-dimensional stress stateAppendix A2: Large strains: an alternative definitionThe basic theory of sheet metal forming in the automotive, appliance and aircraft industries is given. This fills a gap between the descriptive treatments in most manufacturing texts and the advanced numerical methods used in computer-aided-design systems. The book may be used by lecturers in undergraduate courses in manufacturing; plentiful exercises and worked examples provide quantitative tutorial problems for students. A separate, but related simulation software package advertised on this page enables students to explore the limits of processes and understand the influence of difSheet-metalPlastic propertiesSheet-metal workMathematical modelsPlasticityPlates (Engineering)Plastic propertiesSheet-metalPlastic properties.Sheet-metal workMathematical models.Plasticity.Plates (Engineering)Plastic properties.671.823Marciniak Z627340Duncan J. L193586Hu S. J1505099MiAaPQMiAaPQMiAaPQBOOK9910784337803321Mechanics of sheet metal forming3734534UNINA