Transport technology and trades Books

Book SynopsisThe untold story of an eccentric, scientific visionary whose death-defying research has saved millions of lives.Trade Review"A beautifully presented and admiring portrait of Stapp…. Mr. Ryan demonstrates a gift for making the complex science of Stapp’s experiments understandable, and he is equally skilled at capturing the spirit of his subject." -- Patrick Cooke - Wall Street Journal"Compelling and compulsively readable…a curious but charming tale, the story of a man who courted danger—and death—in the ultimate pursuit of safety. Sonic Wind is an engrossing read, and Ryan brings his unlikely hero to life, deftly describing Stapp’s missionary zeal—inherited, presumably, from his parents—for safety." -- Emily Anthes - Washington Post"A fine, groundbreaking biography of one of aeromedical sciences’ more legendary figures." -- John Carver Edwards - Library Journal, Starred review"[The] remarkable, almost-forgotten story of an aerospace pioneer. …Ryan's full-length biography uncovers the private man, Stapp's offbeat sense of humor, his awkward love life, his passion for classical music, and his friendships with daring test pilots Chuck Yeager and Joe Kittinger, fellow trailblazers whose fame has persisted. A consistently fine appreciation of the medical maverick who, as much as any other, helped make the Space Age possible." -- Kirkus Reviews, Starred Review"Remarkable…[an] intriguing book about this unusual and mostly intriguing man." -- Michael Merschel - Dallas Morning News

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Book SynopsisComprehensively covers new and existing methods for the design and analysis of composites structures with damage present Provides efficient and accurate approaches for analysing structures with holes and impact damage Introduces a new methodology for fatigue analysis of composites Provides design guidelines, and step by step descriptions of how to apply the methods, along with evaluation of their accuracy and applicability Includes problems and exercises Accompanied by a website hosting lecture slides and solutions Trade Review"This will help the readers – engineers who will be designing the next generation of airframe structures – to develop not only better understanding of underlying damage mechanisms, but also critical thinking andopen-mindedness needed for evaluation of any new simplified approaches that may emerge in the future" Professor Maria Kashtalyan, University of Aberdeen on behalf of the Aeronautical Journal, Oct 2017Table of ContentsSeries Preface ix Preface xi 1 Damage in Composite Structures: Notch Sensitivity 1 1.1 Introduction 1 1.2 Notch Insensitivity 2 1.3 ‘Complete’ Notch Sensitivity 4 1.4 Notch Sensitivity of Composite Materials 5 Exercises 6 References 7 2 Holes 9 2.1 Stresses around Holes 13 2.2 Using the Anisotropic Elasticity Solution to Predict Failure 16 2.3 The Role of the Damage Zone Created Near a Hole 17 2.4 Simplified Approaches to Predict Failure in Laminates with Holes: the Whitney–Nuismer Criteria 19 2.5 Other Approaches to Predict Failure of a Laminate with a Hole 24 2.6 Improved Whitney–Nuismer Approach 25 2.7 Application: Finding the Stacking Sequence Which Results in Good OHT Performance 34 Exercises 35 References 39 3 Cracks 41 3.1 Introduction 41 3.2 Modelling a Crack in a Composite Laminate 42 3.3 Finite-Width Effects 45 3.4 Other Approaches for Analysis of Cracks in Composites 46 3.5 Matrix Cracks 49 Exercises 52 References 56 4 Delaminations 57 4.1 Introduction 57 4.2 Relation to Inspection Methods and Criteria 60 4.3 Modelling Different Structural Details in the Presence of Delaminations 63 4.3.1 Buckling of a Through-Width Delaminating Layer 63 4.3.2 Buckling of an Elliptical Delaminating Layer 69 4.3.3 Application – Buckling of an Elliptical Delamination under Combined Loads 73 4.3.4 Onset of Delamination at a Straight Free Edge of a Composite Laminate 75 4.3.5 Delamination at a Flange–Stiffener Interface of a Composite Stiffened Panel 84 4.3.6 Double Cantilever Beam and End Notch Flexure Specimen 88 4.3.7 The Crack Closure Method 92 4.4 Strength of Materials Versus Fracture Mechanics – Use of Cohesive Elements 96 4.4.1 Use of Cohesive Elements 99 Exercises 100 References 103 5 Impact 105 5.1 Sources of Impact and General Implications for Design 105 5.2 Damage Resistance Versus Damage Tolerance 109 5.3 Modelling Impact Damage as a Hole 111 5.4 Modelling Impact Damage as a Delamination 114 5.5 Impact Damage Modelled as a Region of Reduced Stiffness 117 5.6 Application: Comparison of the Predictions of the Simpler Models with Test Results 121 5.6.1 Modelling BVID as a Hole 122 5.6.2 Modelling BVID as a Single Delamination 123 5.6.3 Modelling BVID as an Elliptical Inclusion of Reduced Stiffness 124 5.6.4 Comparisons of Analytical Predictions to Test Results – Sandwich Laminates 124 5.7 Improved Model for Impact Damage Analysed as a Region of Reduced Stiffness 125 5.7.1 Type and Extent of Damage for Given Impact Energy 125 5.7.2 Model for Predicting CAI Strength 148 Exercises 163 References 168 6 Fatigue Life of Composite Structures: Analytical Models 171 6.1 Introduction 171 6.2 Needed Characteristics for an Analytical Model 175 6.3 Models for the Degradation of the Residual Strength 177 6.3.1 Linear Model 177 6.3.2 Nonlinear Model 180 6.4 Model for the Cycles to Failure 183 6.4.1 Extension to Spectrum Loading 196 6.5 Residual Strength and Wear-Out Model Predictions Compared to Test Results 200 6.5.1 Residual Strength Predictions Compared to Test Results 200 6.5.2 Cycles to Failure Predictions Compared to Test Results (Constant Amplitude) 202 6.5.3 Cycles to Failure Predictions Compared to Test Results (Spectrum Loading) 204 6.6 A Proposal for the Complete Model: Accounting for Larger Scale Damage 206 6.6.1 First Cycle, Tension Portion 207 6.6.2 First Cycle, Compression Portion 207 6.6.3 Subsequent Load Cycles 208 6.6.4 Discussion 208 6.6.5 Application: Tension–Compression Fatigue of Unidirectional Composites 209 6.6.6 Application: Tension–Tension Fatigue of Cross-Ply Laminates 214 Exercises 218 References 219 7 Effect of Damage in Composite Structures: Summary and Useful Design Guidelines 221 Index 227

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Book SynopsisTransport systems have to meet the mobility needs of people and commodities on all scales, from the local to the global level. Concerns about the energy, fumes and sound emissions produced, and about the safety, service quality, intelligence and lifecycle of the systems, etc. can all be included in a systemic approach. This approach can contribute to the development of sustainable solutions, for individual vehicles as well as for transport systems. Derived from an approach combining the social and physical sciences, these solutions result from the integration of physical objects, services and organizational processes, which involve several actors. Their harmonious organization contributes to the development of more virtuous transport systems for the future of urban and inter-urban mobility.Table of ContentsIntroduction ix Chapter 1. The Fundamentals of Sustainable Transport 1 Chapter 2. Vehicles: An Element of the Solution for Sustainable Transport 45 Chapter 3. A Systemic Approach to Transport Schemes 103 Chapter 4. Can We Organize Sustainable Mobility? 135 Chapter 5. Innovation Projects for Sustainable Transport Systems 191 Chapter 6. Public Policies, Economics and Sustainable Transport 249 Conclusions – Directions 269 Bibliography 277 Glossary for Alternative Fuels 295 Appendix–LUTB Transport and Mobility Systems 299 Index 305

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