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Mechanical Behaviour of Engineering Materials Metals Ceramics Polymers and Composites 1st Edition by Joachim Roesler, Harald Harders, Martin Baeker ISBN 9783540734482 3540734481

Name: Mechanical Behaviour of Engineering Materials Metals Ceramics Polymers and Composites 1st Edition by Joachim Roesler, Harald Harders, Martin Baeker ISBN 9783540734482 3540734481
SKU: EB-18870
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Authors:Joachim Roesler; Harald Harders; Martin Baeker , Series:Mechanical engineering [141] , Tags:Science; Mechanics; Solids; Technology & Engineering; Materials Science; General; Civil; Manufacturing; Construction , Author sort:Roesler, Joachim & Harders, Harald & Baeker, Martin , Ids:9783540734482 , Languages:Languages:eng , Published:Published:Oct 2007 , Publisher:Springer Science & Business Media , Comments:Comments:How do engineering materials deform when bearing mechanical loads? To answer this crucial question, the book bridges the gap between continuum mechanics and materials science. The different kinds of material deformation (elasticity, plasticity, fracture, creep, fatigue) are explained in detail. The book also discusses the physical processes occurring during the deformation of all classes of engineering materials (metals, ceramics, polymers, and composites) and shows how these materials can be strengthened to meet the design requirements. It provides the knowledge needed in selecting the appropriate engineering material for a certain design problem. The reader will thus learn how to critically employ design rules and thus to avoid failure of mechanical components. â€˜Mechanical Behaviour of Engineering Materialsâ€™ is both a valuable textbook and a useful reference for graduate students and practising engineers.

SKU: EB-18870 Category: eBook PDF Tags: Engineering Materials, Harald Harders, Joachim Roesler, Martin Baeker, Mechanical Behaviour

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ISBN 10: 3540734481
ISBN 13: 9783540734482
Author: Joachim Roesler, Harald Harders, Martin Baeker

How do engineering materials deform when bearing mechanical loads? To answer this crucial question, the book bridges the gap between continuum mechanics and materials science. The different kinds of material deformation (elasticity, plasticity, fracture, creep, fatigue) are explained in detail. The book also discusses the physical processes occurring during the deformation of all classes of engineering materials (metals, ceramics, polymers, and composites) and shows how these materials can be strengthened to meet the design requirements. It provides the knowledge needed in selecting the appropriate engineering material for a certain design problem. The reader will thus learn how to critically employ design rules and thus to avoid failure of mechanical components. ‘Mechanical Behaviour of Engineering Materials’ is both a valuable textbook and a useful reference for graduate students and practising engineers.

Mechanical Behaviour of Engineering Materials Metals Ceramics Polymers and Composites 1st Edition Table of contents:

Part I: Fundamentals of Material Mechanics

Introduction to the Mechanical Behavior of Materials
- Overview of Material Classes
- Key Concepts in Material Behavior
- Stress and Strain in Solid Materials
- Basic Mechanical Testing Methods
Elasticity and Plasticity of Materials
- Elastic Deformation: Hooke’s Law and Stress-Strain Relations
- Yielding and Plastic Deformation
- Hardening and Softening Behavior
- Fracture and Failure Mechanics
Viscoelastic and Viscoplastic Behavior
- Time-Dependent Material Behavior
- Rheology and Material Flow
- Creep and Stress Relaxation
- Constitutive Models for Viscoelasticity

Part II: Mechanical Properties of Metals

Structure and Properties of Metals
- Atomic and Crystal Structure of Metals
- Grain Boundaries, Dislocations, and Slip Systems
- Influence of Alloying Elements on Properties
- Metallurgical Processes and Their Effects
Mechanical Behavior of Metals
- Tensile, Compressive, and Shear Behavior of Metals
- Fatigue and Endurance Limits
- Fracture Toughness and Ductile-Brittle Transition
- High-Temperature and Low-Temperature Properties
Metal Forming and Processing
- Plastic Deformation Mechanisms
- Rolling, Forging, and Extrusion Processes
- Strain Hardening and Superplasticity
- Heat Treatment and Microstructure Control

Part III: Mechanical Properties of Ceramics

Structure and Properties of Ceramics
- Atomic and Crystalline Structure of Ceramics
- Bonding in Ceramics: Ionic and Covalent Bonds
- Porosity and Brittleness in Ceramics
- Ceramic Composites and Their Design
Mechanical Behavior of Ceramics
- Strength and Fracture Mechanics of Ceramics
- Brittle Failure and Crack Propagation
- Toughening Mechanisms in Ceramics
- Creep Behavior in Ceramic Materials
Ceramic Processing and Applications
- Sintering and Grain Growth in Ceramics
- Advanced Ceramic Materials (e.g., Oxides, Non-Oxides)
- Applications in Aerospace, Electronics, and Energy

Part IV: Mechanical Properties of Polymers

Structure and Properties of Polymers
- Molecular Structure and Polymerization
- Thermoplastic and Thermosetting Polymers
- Crystallinity and Amorphousness in Polymers
- Polymeric Blends and Nanocomposites
Mechanical Behavior of Polymers
- Stress-Strain Behavior in Polymers
- Elastic and Viscoelastic Properties
- Creep and Relaxation in Polymers
- Fracture and Fatigue Behavior
Polymer Processing and Applications
- Polymer Forming Techniques (Injection Molding, Extrusion)
- Additive Manufacturing of Polymers
- Applications in Automotive, Packaging, and Biomedical Fields

Part V: Mechanical Properties of Composites

Structure and Properties of Composites
- Fiber Reinforced Composites (FRPs)
- Matrix Materials: Metal, Ceramic, and Polymer Matrices
- Composite Microstructure and Interfaces
- Hybrid Composites and Nanocomposites
Mechanical Behavior of Composites
- Tensile and Shear Properties of Composites
- Failure Mechanisms in Composites: Matrix Cracking and Fiber Failure
- Fatigue, Impact, and Fracture Toughness of Composites
- Design of Composite Materials for Strength and Durability
Manufacturing and Applications of Composites
- Composite Fabrication Techniques (Lay-up, Pultrusion, Filament Winding)
- Non-Destructive Testing of Composites
- Applications in Aerospace, Automotive, and Structural Engineering

Part VI: Advanced Topics in Material Behavior

Materials Under Extreme Conditions
- Behavior at High Temperatures and Pressures
- Radiation Effects on Material Properties
- Materials for High-Performance Applications
Multiscale Modeling of Material Behavior
- Micromechanical and Macromechanical Modeling
- Atomistic Simulation Techniques (Molecular Dynamics)
- Finite Element Analysis of Material Deformation
Emerging Materials and Trends
- Smart Materials and Actuators
- Biomaterials and Bioinspired Design
- Sustainability and Green Materials

Part VII: Appendices

Material Property Data
- Mechanical Properties of Metals, Ceramics, Polymers, and Composites
- Standard Testing Methods and Results
Mathematical Tools for Material Behavior Analysis
- Stress-Strain Analysis and Computational Methods
- Numerical Simulation and Modeling

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