The welding engineer's guide to fracture and fatigue /

The Welding Engineer's Guide to Fracture and Fatigue provides an essential introduction to fracture and fatigue and the assessment of these failure modes, through to the level of knowledge that would be expected of a qualified welding engineer. Part one covers the basic principles of weld fract...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autores principales: Moore, Philippa (Autor), Booth, Geoff (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Cambridge, UK ; Waltham, MA, USA : Elsevier Woodhead Publishing, [2015]
Colección:Woodhead Publishing series in welding and other joining technologies ; no. 84.
Temas:
Welded joints > Fatigue.
Welded joints > Cracking.
Metals > Fatigue.
Fracture mechanics.
Soudures > Fatigue.
Soudures > Fissuration.
M�etaux > Fatigue.
M�ecanique de la rupture.
TECHNOLOGY & ENGINEERING > Technical & Manufacturing Industries & Trades.
Fracture mechanics
Metals > Fatigue
Welded joints > Cracking
Welded joints > Fatigue
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Cover; The Welding Engineer 's Guide to Fracture and Fatigue; Copyright; Contents; Dedication; Preface; Part One Principles of weld fracture and fatigue; 1 Designing engineered structures; 1.1 Introduction; 1.2 The first engineered structures; 1.3 Successful structures; 1.4 Materials and fabrication methods; 1.5 Industrialisation: benefits and consequences; 1.6 Conclusions; 1.7 Sources of further information and advice; 2 Structures under load; 2.1 Introduction; 2.2 Sources of loading; 2.3 Types of loading; 2.4 Loads experienced during construction; 2.5 Design approach
  • 2.6 Axial and bending stresses2.7 Conclusions; 2.8 Sources of further information and advice; 3 Welding problems and defects; 3.1 Introduction; 3.2 'Workmanship' defects; 3.3 Weldability; 3.4 Fabrication cracking in welds; 3.5 Other types of weld defect; 3.6 Welding residual stresses; 3.7 Distortion; 3.8 Conclusions; 3.9 Sources of further information and advice; 4 Design for static loading; 4.1 Introduction; 4.2 Load-extension curves; 4.3 Stress-strain curves; 4.4 Static limit state design; 4.5 Conclusions; 4.6 Sources of further information and advice
  • 5 Brittle fracture and the behaviour of cracks in structures5.1 Introduction; 5.2 Nature of brittle fracture; 5.3 The three factors for brittle fracture; 5.4 Ductile-to-brittle transition; 5.5 Welding and fabrication codes; 5.6 Principles of fracture mechanics; 5.7 Fracture toughness parameters; 5.8 Conclusions; 5.9 Sources of further information and advice; 6 Structures under cyclic load; 6.1 Introduction; 6.2 Engineering perspective of fatigue; 6.3 Metallurgical perspective of fatigue; 6.4 Practical implications for a growing fatigue crack; 6.5 Conclusions
  • 6.6 Sources of further information and advice7 Fatigue of welded joints; 7.1 Introduction; 7.2 Fatigue performance of welded joints; 7.3 Special features of welded joints; 7.4 Fatigue design of welded joints; 7.5 Stress histories of real structures: variable amplitude loading; 7.6 Fatigue of welded aluminium; 7.7 Conclusions; 7.8 Sources of further information and advice; 8 Failure modes and analysis in metals; 8.1 Introduction; 8.2 Ductile failure; 8.3 Brittle fracture; 8.4 Fatigue failure; 8.5 Scanning electron microscopy (SEM) of fracture surfaces; 8.6 Interpreting fracture faces
  • 8.7 Corrosion8.8 Engineering failure investigations; 8.9 Conclusions; 8.10 Sources of further information and advice; Part Two Testing, analysis and assessment of weld fractureand fatigue; 9 Mechanical testing of welds; 9.1 Introduction; 9.2 Weld procedure qualification; 9.3 Bend testing; 9.4 Tensile testing; 9.5 Charpy testing; 9.6 Fracture toughness testing; 9.7 Fatigue testing; 9.8 Creep testing; 9.9 Corrosion testing; 9.10 Macrographic sections; 9.11 Hardness testing; 9.12 Conclusions; 9.13 Sources of further information and advice; 10 Detecting weld defects; 10.1 Introduction

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