Introduction to Materials Science for Engineers

Name: Introduction to Materials Science for Engineers
Price: 5.02 USD
Availability: InStock
ISBN: 9780136012603

ISBN-10: 0136012604

ISBN-13: 9780136012603

Edition: 7th 2009

Authors: James F. Shackelford

List price: $151.00

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Description:

This book provides balanced, current treatment of the full spectrum of engineering materials, covering all the physical properties, applications and relevant properties associated with engineering materials. The book explores all of major categories of materials while offering detailed examinations of a wide range of new materials with high-tech applications. The reader is treated to state-of-the-art computer generated crystal structure illustrations, offering the most technically precise and visually realistic illustrations available. The book includes over 350 exercises with sample problems to provide guidance.Materials for Engineering, Atomic Bonding, Crystal Structure and Defects,…

Book details

List price: $151.00
Edition: 7th
Copyright year: 2009
Publisher: Prentice Hall PTR
Publication date: 10/30/2008
Binding: Hardcover
Pages: 600
Size: 8.00" wide x 10.00" long x 1.00" tall
Weight: 2.838
Language: English




Materials for Engineering



The Material World



Materials Science and Engineering



Six Materials That Changed Your World


Steel Bridges


Introducing Metals


Lucalox Lamps


Introducing Ceramics


Optical Fibers


Introducing Glasses


Nylon Parachutes


Introducing Polymers


Kevlar-Reinforced Tires


Introducing


Composites


Silicon Chips


Introducing


Semiconductors



Processing and Selecting Materials



Looking at Materials by Powers of Ten



The Fundamentals



Atomic Bonding



Atomic Structure



The Ionic Bond


Coordination Number



The Covalent Bond



The Metallic Bond



The Secondary, or van der Waals, Bond



Materials


The Bonding Classification


Crystalline Structure


Perfection



Seven Systems and Fourteen Lattices



Metal Structures



Ceramic Structures



Polymeric Structures



Semiconductor Structures



Lattice Positions, Directions, and Planes



X-Ray Diffraction



Crystal Defects and Noncrystalline


Structure


Imperfection



The Solid Solution


Chemical Imperfection



Point Defects


Zero-Dimensional


Imperfections



Linear Defects, or Dislocations


One-Dimensional


Imperfections



Planar Defects


Two-Dimensional


Imperfections



Noncrystalline Solids


Three-Dimensional


Imperfections



Diffusion



Thermally Activated Processes



Thermal Production of Point Defects



Point Defects and Solid-State Diffusion



Steady-State Diffusion



Alternate Diffusion Paths



Mechanical Behavior



Stress Versus Strain


Metals


Ceramics and Glasses


Polymers



Elastic Deformation



Plastic Deformation



Hardness



Creep and Stress Relaxation



Viscoelastic Deformation


Inorganic Glasses


Organic Polymers


Elastomers



Thermal Behavior



Heat Capacity



Thermal Expansion



Thermal Conductivity



Thermal Shock



Failure Analysis and Prevention



Impact Energy



Fracture Toughness



Fatigue



Nondestructive Testing



Failure Analysis and Prevention



Phase Diagrams


Equilibrium Microstructural Development



The Phase Rule



The Phase Diagram


Complete Solid S<$$$>