Ebook: Numerical Analysis and Modelling of Composite Materials

Composite materials are increasingly used in many applications because they offer the engineer a range of advantages over traditional materials. They are often used in situations where a specified level of performance is required, but where the cost of testing the materials under the extremes of those specifications is very high. In order to solve this problem, engineers are turning to computer Modelling to evaluate the materials under the range of conditions they are likely to encounter. Many of these analyses are carried out in isolation, and yet the evaluation of a range of composites can be carried out using the same basic principles.
In this new book the editor has brought together an international panel of authors, each of whom is working on the analysis and Modelling of composite materials. The overage of the book is deliberately wide; to illustrate that similar principles and methods can be used to model and evaluate a wide range of materials. It is also hoped that, by bringing together this range of topics, the insight gained in the study of one composite can be recognized and utilized in the study of others.
Professional engineers involved in the specification and testing of composite material structures will find this book an invaluable resource in the course of their work. It will also be of interest to those industrial and academic engineers involved in the design, development, manufacture and applications of composite materials.

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Composite materials are increasingly used in many applications because they offer the engineer a range of advantages over traditional materials. They are often used in situations where a specified level of performance is required, but where the cost of testing the materials under the extremes of those specifications is very high. In order to solve this problem, engineers are turning to computer Modelling to evaluate the materials under the range of conditions they are likely to encounter. Many of these analyses are carried out in isolation, and yet the evaluation of a range of composites can be carried out using the same basic principles.
In this new book the editor has brought together an international panel of authors, each of whom is working on the analysis and Modelling of composite materials. The overage of the book is deliberately wide; to illustrate that similar principles and methods can be used to model and evaluate a wide range of materials. It is also hoped that, by bringing together this range of topics, the insight gained in the study of one composite can be recognized and utilized in the study of others.
Professional engineers involved in the specification and testing of composite material structures will find this book an invaluable resource in the course of their work. It will also be of interest to those industrial and academic engineers involved in the design, development, manufacture and applications of composite materials.

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Composite materials are increasingly used in many applications because they offer the engineer a range of advantages over traditional materials. They are often used in situations where a specified level of performance is required, but where the cost of testing the materials under the extremes of those specifications is very high. In order to solve this problem, engineers are turning to computer Modelling to evaluate the materials under the range of conditions they are likely to encounter. Many of these analyses are carried out in isolation, and yet the evaluation of a range of composites can be carried out using the same basic principles.
In this new book the editor has brought together an international panel of authors, each of whom is working on the analysis and Modelling of composite materials. The overage of the book is deliberately wide; to illustrate that similar principles and methods can be used to model and evaluate a wide range of materials. It is also hoped that, by bringing together this range of topics, the insight gained in the study of one composite can be recognized and utilized in the study of others.
Professional engineers involved in the specification and testing of composite material structures will find this book an invaluable resource in the course of their work. It will also be of interest to those industrial and academic engineers involved in the design, development, manufacture and applications of composite materials.
Content:
Front Matter....Pages i-xvii
Analysis of composite rotor blades....Pages 1-26
Analysis and modelling of damage and repair of composite materials in aerospace....Pages 27-59
Ritz type solution for the free vibrations of fibre-reinforced cylindrical shells....Pages 60-77
Numerical analysis and modeling of the creep behavior of composite multilayered cylindrical pressure vessels....Pages 78-104
Stresses in composite panels with openings....Pages 105-127
The numerical analysis and modelling of repaired runways following chemical explosive crater formation....Pages 128-151
Numerical analysis and modelling of the damage and softening of brick masonry....Pages 152-184
Numerical simulation of the impact resistance of composite structures....Pages 185-246
Numerical modeling of damage, property degradation and life prediction in fatigue of composite laminates....Pages 247-286
Modelling of stress transfer across the fibre—matrix interface....Pages 287-326
Modeling of enhanced composite creep and plastic flow in temperature cycling....Pages 327-356
Determination of interfacial properties and stresses in continuous fiber-reinforced ceramic composites by means of single-fiber indentation tests....Pages 357-399
Numerical modelling of woven fabric composite materials....Pages 400-438
Back Matter....Pages 439-441

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Composite materials are increasingly used in many applications because they offer the engineer a range of advantages over traditional materials. They are often used in situations where a specified level of performance is required, but where the cost of testing the materials under the extremes of those specifications is very high. In order to solve this problem, engineers are turning to computer Modelling to evaluate the materials under the range of conditions they are likely to encounter. Many of these analyses are carried out in isolation, and yet the evaluation of a range of composites can be carried out using the same basic principles.
In this new book the editor has brought together an international panel of authors, each of whom is working on the analysis and Modelling of composite materials. The overage of the book is deliberately wide; to illustrate that similar principles and methods can be used to model and evaluate a wide range of materials. It is also hoped that, by bringing together this range of topics, the insight gained in the study of one composite can be recognized and utilized in the study of others.
Professional engineers involved in the specification and testing of composite material structures will find this book an invaluable resource in the course of their work. It will also be of interest to those industrial and academic engineers involved in the design, development, manufacture and applications of composite materials.
Content:
Front Matter....Pages i-xvii
Analysis of composite rotor blades....Pages 1-26
Analysis and modelling of damage and repair of composite materials in aerospace....Pages 27-59
Ritz type solution for the free vibrations of fibre-reinforced cylindrical shells....Pages 60-77
Numerical analysis and modeling of the creep behavior of composite multilayered cylindrical pressure vessels....Pages 78-104
Stresses in composite panels with openings....Pages 105-127
The numerical analysis and modelling of repaired runways following chemical explosive crater formation....Pages 128-151
Numerical analysis and modelling of the damage and softening of brick masonry....Pages 152-184
Numerical simulation of the impact resistance of composite structures....Pages 185-246
Numerical modeling of damage, property degradation and life prediction in fatigue of composite laminates....Pages 247-286
Modelling of stress transfer across the fibre—matrix interface....Pages 287-326
Modeling of enhanced composite creep and plastic flow in temperature cycling....Pages 327-356
Determination of interfacial properties and stresses in continuous fiber-reinforced ceramic composites by means of single-fiber indentation tests....Pages 357-399
Numerical modelling of woven fabric composite materials....Pages 400-438
Back Matter....Pages 439-441
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