Materials Engineering, science, processing and design /

Ashby Michael

Materials Engineering, science, processing and design / Ashby Michael - 2nd edition - Amsterdam Elervier 2007 - ix; Various paging ill 26 cm

Content

Chapter 1 Introduction: Materials - history and character
1.2 Materials, processes and choice
1.2 Material properties
1.3 Design limiting properties
1.4 Summary and conclusions
1.5 Further reading
Etc.

Chapter 2 Family tress: organizing materials and properties
2.1 Introduction and synopsis
2.2 Getting materials organized: the materials trees
2.3 Organizing processing: the process tree
2.4 Process - property interaction
2.5 Material property charts
Etc.

Chapter 3 Strategic thinking matching to design
3.1 Introduction and synopsis
3.2 The design process
3.3 Material and process information for design
3.4 The strategy: translation, screening, ranking and documentation
3.5 Examples of translation
Etc.

Chapter 4 Stiffness and weight: density and elastic moduli
4.1 Introduction and synopsis
4.2 Density, stress, strain and moduli
4.3 The big picture: material property charts
4.4 The science: what determines density and stiffness
4.5 Manipulating the modulus and density
Etc.

Chapter 5 Flex, sag and wobbles: Stiffness limited design
5.1 Introduction and synopsis
5.2 Standard solutions to elastic problems
5.3 Material indices for elastic design
5.4 Plotting limits and indices on charts
5.5 Case studies
Etc.

Chapter 6 Beyond elasticity: plasticity, yielding and ductility
6.1 Introduction and synopsis
6.2 Strength, plastic work and ductility: definition and measurement
6.3 The big picture: charts and yields strength
6.4 Drilling down: strength and ductility
6.5 Manipulating strength
Etc.

Chapter 7 bend and crush: strength- limited design
7.1 Introduction and synopsis
7.2 Standard solutions to plastic problems
7.3 Material indices for yield limited design
7.4 Case studies
7.5 Summary and conclusions
Etc.

Chapter 8 Fracture and fracture toughness
8.1 Introduction and synopsis
8.2 Strength and toughness
8.3 The mechanics of fracture
8.4 Material poverty charts for toughness
8.5 Drilling down: the origins of toughness
Etc.

Chapter 9 Shake, and roll: cyclic loading, damage and failure
9.1 Introduction and synopsis
9.2 Vibration and resonance: the damage coefficient
9.3 Fatigue
9.4 Charts for endurance limit
9.5 Drilling down: the origins of damping fatigue
Etc.
Chapter 10 Keeping it all together: fracture limited design
10.1 Introduction and synopsis
10.2 Standard solutions to fracture problems
10.3 Materials indices for fracture safe design
10.4 Case studies
10.5 Summary and conclusions
Etc.

Chapter 11 Rub, slither and seize: friction and wear
1.1 Introduction and synopsis
11.2 Tribological properties
11.3 Charting friction and wear
11.4 The physics of friction and wear
11.5 Design and selections: materials to manage friction and wear
Etc.

Chapter 12 agitated atoms: material and heat
12.1 Introduction and synopsis
12.2 The temperature dependence o material properties
12.3 The big picture: thermal property charts
12.4 Drilling down: the physics of thermal properties
12.5 manipulating thermal
Etc.

Chapter 13 running hot: Using materials at high temperature
13.1 Introduction and synopsis
13.2 The temperature dependence of material properties
13.3 Charts for creep behavior
13.4 The science: diffusion
13.5 Materials to resist creep
Etc.

Chapter 14 Conductors insulators and dielectrics
14.1 Introduction and synopsis
14.2 Conductors, insulators and dielectrics
14.3 Charts for electrical properties
14.4 Drilling down: the origins and manipulation of electrical properties
14.5 Design: using the electrical properties of materials
Etc.

Chapter 15 Magnetic materials
15.1 Introduction and synopsis
15.2 Magnetic properties: definition and measurement
15.3 Charts for magnetic properties
15.4 Drilling down: the physics and manipulation of optical properties
15.5 Materials selection for magnetic design
Etc.

Chapter 16 Materials for optical devices
16.1 Introduction and synopsis
16.2 The interaction of materials and radiation
16.3 Charts for optical properties
16.4 Drilling down: the physics and manipulation of optical properties
16.5 Optical design
Etc.

Chapter 17 Durability: Oxidation, corrosion, degradation
17.1 Introduction and synopsis
17.2 Oxidation, flammability and photo degradation
17.3 Oxidation mechanics
17.4 Resistance to oxidation, burning and photo-degradation
17.5 Corrosion: acids, alkalis, water and organic solvents
Etc.

Chapter 181 heat, beat, stick and polish: manufacturing processes
18.1 Introduction and synopsis
18.2 Process selection in design
18.3 Process attributes: material compatibility
18.4 Shaping processes: attributes and origins
18.5 Joining processes: attributes and origins
Etc.

Chapter 19 Follow the recipe: processing and properties
19.1 Introduction and synopsis
19.2 Processing for properties
19.3 Microstructure of materials
19.4 Microstructure evolution in processing
19.5 Metal processing
Etc.

Chapter 20 Materials, processes and the environment
20.1 Introduction and synopsis
20.2 Material consumption and its growth
20.3 The material life cycle and criteria for assessment
20.4 Definitions and measurement: embodied energy, process energy and end of life potential







Includes Index: p A 19 - I.14

9781856178952



620.11 / ASH