Complete casting handbook : metal casting processes, metallurgy, techniques and design /

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Campbell's Complete Casting Handbook: Metal Casting Processes, Techniques and Design, Second Edition provides an update to the first single-volume guide to cover modern principles and processes in such breadth and depth, while also retaining a clear, practical focus. The work has a unique viewp...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Campbell, John, 1938- (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Amsterdam : Elsevier : Butterworth-Heinemann, 2015.
Edición:Second edition.
Temas:
Founding.
Metal castings.
Fonderie.
Pièces moulées.
casting (process)
TECHNOLOGY & ENGINEERING > Technical & Manufacturing Industries & Trades.
Founding
Metal castings
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Complete Casting Handbook; Copyright; Dedication; Contents; Preface; Introduction; CASTINGS HANDBOOK, 2ND EDITION, 2015; Acknowledgements; CASTING METALLURGY; CHAPTER 1
  • THE MELT; 1.1 REACTIONS OF THE MELT WITH ITS ENVIRONMENT; 1.2 TRANSPORT OF GASES IN MELTS; 1.3 SURFACE FILM FORMATION; 1.4 VAPORISATION; CHAPTER 2
  • ENTRAINMENT; 2.1 ENTRAINMENT DEFECTS; 2.2 ENTRAINMENT PROCESSES; 2.3 FURLING AND UNFURLING; 2.4 DEACTIVATION OF ENTRAINED FILMS; 2.5 SOLUBLE, TRANSIENT FILMS; 2.6 DETRAINMENT; 2.7 EVIDENCE FOR BIFILMS; 2.8 THE IMPORTANCE OF BIFILMS.
  • 2.9 the four common populations of bifilmschapter 3
  • flow; 3.1 effect of surface films on filling; 3.2 maximum fluidity (the science of unrestricted flow); 3.3 extended fluidity; 3.4 continuous fluidity; chapter 4
  • moulds and cores; 4.1 moulds: inert or reactive; 4.2 transformation zones; 4.3 evaporation and condensation zones; 4.4 mould atmosphere; 4.5 mould surface reactions; 4.6 metal surface reactions; 4.7 mould coatings; chapter 5
  • solidification structure; 5.1 heat transfer; 5.2 development of matrix structure; 5.3 segregation; chapter 6
  • casting alloys; 6.1 zinc alloys.
  • 6.2 magnesium alloys6.3 aluminium; 6.4 copper alloys; 6.5 cast iron; 6.6 steels; 6.7 nickel-base alloys; 6.8 titanium; chapter 7
  • porosity; 7.1 shrinkage porosity; 7.2 gas porosity; 7.3 porosity diagnosis; chapter 8
  • cracks and tears; 8.1 hot tearing; 8.2 cold cracking; chapter 9
  • properties of castings; 9.1 test bars; 9.2 the statistics of failure; 9.3 effect of defects; 9.4 tensile properties; 9.5 fracture toughness; 9.6 fatigue; 9.7 elastic (young's) modulus and damping capacity; 9.8 residual stress; 9.9 high temperature tensile properties; 9.10 oxidation and corrosion resistance.
  • 9.11 leak-tightness9.12 surface finish; 9.13 quality indices; 9.14 bifilm-free properties; casting manufacture; introduction to the casting manufacturing industry; section
  • 1; chapter 10
  • the 10 rules for good castings; 10.1 rule 1: use a good-quality melt; 10.2 rule 2: avoid turbulent entrainment (the critical velocity requirement); 10.3 rule 3: avoid laminar entrainment of the surface film (the non-stopping, non-reversing condition); 10.4 rule 4: avoid bubble damage; 10.5 rule 5: avoid core blows; 10.6 rule 6: avoid shrinkage damage; 10.7 rule 7: avoid convection damage.
  • 10.8 rule 8: reduce segregation damage10.9 rule 9: reduce residual stress; 10.10 rule 10: provide location points; section 2
  • filling system design; chapter 11
  • filling system design fundamentals; 11.1 the maximum velocity requirement; 11.2 gravity pouring: the 'no-fall' conflict; 11.3 reduction or elimination of gravity problems; 11.4 surface tension controlled filling; chapter 12
  • filling system components; 12.1 pouring basin; 12.2 sprue (down-runner); 12.3 runner; 12.4 gates; 12.5 surge control systems; 12.6 vortex systems; 12.7 inclusion control: filters and traps; 12.8 filters.
  • Chapter 13
  • filling system design practice.

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