Materials failure analysis : case studies and design implications

Engineering Materials 3 provides undergraduate students and -raduates with an excellent source of practical information on the design implications of material properties, building on the basic material contained in Engineering Materials 1 and 2. The book presents a series of case studies drawn from real situations involving the failure of materials. These are arranged in groups, each description- failures which were linked mainly to a particular material property. The case studies provide specific examples of the use of engineering materials in real applications and provide essential information for introductory courses on materials, structures, mechanics and design. Most of the case studies involve a fairly detailed analysis, and numerical solutions are obtained where this is appropriate, but the level of mathematics used is basic and standard results are quoted from related branches of engineering", A special feature is a basic "toolkit" of the formulae and data which are most frequently used in failure analysis and desian. The book contains a comprehensive set of realistic examples and worked solutions. The final group of chapters - "Great Engineering Disasters" emphasises the practical consequences of inadequate materials and design. The book has been written in a style to match the widely adopted and popular Ashby & Jones' Engineering Materials, 1 and Engineering ' Is 2. It draws on the basic material presented in these texts and provides the practical slant which is becoming increasingly important in engineering courses.

Foreword. Elastic Deformation. Failure of mountaineering ropes. Whirling failure of mountaineering ropes. Whirling failure in woodworking lathe. Loose wheels on a railway locomotive. Buckling of a chemical reactor. Pressurisation damage to a storage tank. Stresses in bolts. Plastic Deformation. Buckling of a model steam boiler. Failure of a chain wrench. Shear of a truck steering shaft. Freeze-bursting of waterpipes. Creep. Creep rupture in a water-tube boiler -1. Creep rupture in a water-tube boiler - 2. Fast Fracture. Fast fracture of an aircraft fuselage. Fast fracture of an ammonia pressure vessel. Fast fracture of a motorway bridge. Brittle Fracture. Fracture of a cast-iron gas main. Cracking of foam insulation in a liquid methane tank. Trouble with thick-walled tubes. Fatigue. Fatigue of pipe-organ components. More trouble with sharp corners. Fatigue of rotating chemical vessel. Environmental Failures. Corrosion of central heating systems - 1. Basic mechanisms.. Corrosion of central heating systems- 2. case studies of a natural material. Great engineering Disasters. Flixborough. The tay Bridge -1. The Tay Bridge -2 Appendices. Index.

Engineering Materials 3 provides undergraduate students and graduates with an excellent source of practical information on the design implications of material properties, building on the basic material contained in Engineering Materials 1 and 2. The book presents a series of case studies drawn from real situations involving the failure of materials. These are arranged in groups, each describing failures which were linked mainly to a particular material property. The case studies provide specific examples of the use of engineering materials in real applications and provide essential information for introductory courses on materials, structures, mechanics and design. Most of the case studies involve a fairly detailed analysis, and numerical solutions are obtained where this is appropriate, but the level of mathematics used is basic and standard results are quoted from related branches of engineering. A special feature is a basic "toolkit" of the formulae and data which are most frequently used in failure analysis and design. The book contains a comprehensive set of realistic examples and worked solutions. The final group of chapters - "Great Engineering Disasters" - emphasises the practical consequences of inadequate materials and design. The book has been written in a style to match the widely adopted and popular Ashby & Jones' Engineering Materials 1 and Engineering Materials 2. It draws on the basic material presented in these texts and provides the practical slant which is becoming increasingly important in engineering courses.

Foreword. Elastic Deformation. Failure of mountaineering ropes. Whirling failure in a woodworking lathe. Loose wheels on a railway locomotive. Buckling of a chemical reactor. Pressurization damage to a storage tank. Stresses in bolts. Plastic Deformation. Buckling of a model steam boiler. Failure of a chain wrench. Shear of a truck steering shaft. Freeze-bursting of water pipes. Creep. Creep rupture in a water-tube boiler - 1. Creep rupture in a water-tube boiler - 2. Fast Fracture. Fast fracture of an aircraft fuselage. Fast fracture of an ammonia pressure vessel. Fast fracture of a motorway bridge. Brittle Fracture. Fracture of a cast-iron gas main. Cracking of foam insulation in a liquid methane tank. Trouble with thick-walled tubes. Fatigue. Fatigue of pipe-organ components. More trouble with sharp corners. Fatigue of a rotating chemical vessel. Environmental Failures. Corrrosion of central heating systems - 1: basic mechanisms. Corrosion of central heating systems - 2: case studies. Corrosion of stainless steel. Degradation of a natural material. Great Engineering Disasters. Flixborough. The Tay bridge - 1. The Tay bridge -2. Appendices. Index. 32 illus., 290 line drawings.