- •Foreword
- •Foreword to First Edition
- •Contributors
- •Preface
- •A.1 Piezoelectric Materials
- •A.3 Optical Fiber Sensors
- •A.4 Electrorheological Fluids
- •A.5 Magnetostrictive Materials
- •A.6 Micro-Electro-Mechanical Systems
- •A.7 Comparison Of Actuators
- •References
- •Index
- •1. Introduction and Overview
- •1.1 General
- •1.3 High-Performance Fiber Composite Concepts
- •1.4 Fiber Reinforcements
- •1.5 Matrices
- •References
- •Bibliography
- •2. Basic Principles of Fiber Composite Materials
- •2.1 Introduction to Fiber Composite Systems
- •2.3 Micromechanics
- •2.4 Elastic Constants
- •2.5 Micromechanics Approach to Strength
- •2.6 Simple Estimate of Compressive Strength
- •References
- •3. Fibers for Polymer-Matrix Composites
- •3.1 Overview
- •3.3 Carbon Fibers
- •3.4 Boron Fibers
- •3.5 Silicon Carbide
- •3.6 Aramid Fibers
- •3.7 Orientated Polyethylene Fibers
- •3.8 Dry Fiber Forms
- •References
- •4. Polymeric Matrix Materials
- •4.1 Introduction
- •4.2 Thermoset and Thermoplastic Polymer Matrix Materials
- •4.3 Thermosetting Resin Systems
- •4.4 Thermoplastic Systems
- •References
- •5. Component Form and Manufacture
- •5.1 Introduction
- •5.2 Outline of General Laminating Procedures
- •5.5 Filament Winding
- •5.7 Process Modelling
- •5.8 Tooling
- •References
- •6. Structural Analysis
- •6.1 Overview
- •6.2 Laminate Theory
- •6.3 Stress Concentration and Edge Effects
- •6.4 Failure Theories
- •6.7 Buckling
- •6.8 Summary
- •References
- •7. Mechanical Property Measurement
- •7.1 Introduction
- •7.2 Coupon Tests
- •7.3 Laboratory Simulation of Environmental Effects
- •7.4 Measurement of Residual Strength
- •7.5 Measurement of Interlaminar Fracture Energy
- •References
- •8. Properties of Composite Systems
- •8.1 Introduction
- •8.3 Boron Fiber Composite Systems
- •8.4 Aramid Fiber Composite Systems
- •8.6 Properties of Laminates
- •References
- •9. Joining of Composite Structures
- •9.1 Introduction
- •9.2 Comparison Between Mechanically Fastened and Adhesively Bonded Joints
- •9.3 Adhesively Bonded Joints
- •9.4 Mechanically Fastened Joints
- •References
- •10. Repair Technology
- •10.1 Introduction
- •10.2 Assessment of the Need to Repair
- •10.3 Classification of Types of Structure
- •10.4 Repair Requirements
- •10.6 Patch Repairs: General Considerations
- •10.7 Bonded Patch Repairs
- •10.9 Application Technology: In Situ Repairs
- •10.10 Bolted Repairs
- •References
- •11. Quality Assurance
- •11.1 Introduction
- •11.2 Quality Control
- •11.3 Cure Monitoring
- •References
- •12. Aircraft Applications and Design Issues
- •12.1 Overview
- •12.2 Applications of Glass-Fiber Composites
- •12.3 Current Applications
- •12.4 Design Considerations
- •12.7 A Value Engineering Approach to the Use of Composite Materials
- •12.8 Conclusion
- •References
- •13. Airworthiness Considerations For Airframe Structures
- •13.1 Overview
- •13.2 Certification of Airframe Structures
- •13.3 The Development of Design Allowables
- •13.4 Demonstration of Static Strength
- •13.5 Demonstration of Fatigue Strength
- •13.6 Demonstration of Damage Tolerance
- •13.7 Assessment of the Impact Damage Threat
- •References
- •14. Three-Dimensionally Reinforced Preforms and Composites
- •14.1 Introduction
- •14.2 Stitching
- •14.3 Z-Pinning
- •14.6 Knitting
- •14.8 Conclusion
- •References
- •15. Smart Structures
- •15.1 Introduction
- •15.2 Engineering Approaches
- •15.3 Selected Applications and Demonstrators
- •References
- •16. Knowledge-Based Engineering, Computer-Aided Design, and Finite Element Analysis
- •16.2 Finite Element Modelling of Composite Structures
- •16.3 Finite Element Solution Process
- •16.4 Element Types
- •16.5 Finite Element Modelling of Composite Structures
- •16.6 Implementation
- •References
INTRODUCTION AND OVERVIEW |
21 |
References |
|
IHoskin, B. C., and Baker, A. A. (eds.), Composite Materials for Aircraft Structure,
AIAA Education Series, AIAA, New York, 1986.
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9Leyens, C., Kocian. F., Hausman, J., and Kaysser, W. A., "Materials and Design Concepts for High-Performance Compressor Components," Aerospace Science and Technology, Vol. 7, 2003, pp. 201-210.
1°Lloyd, D. J., "Particle Reinforced Aluminum and Magnesium Matrix Composites."
International Materials Reviews, Vol. 39, 1994, p. 1.
11Parlier, M., and Ritti, M. H., "State of the Art and Perspectives for Oxide/Oxide Composites," Aerospace Technology, Vol. 7, 2003, pp. 211-221.
12Bucldey J. D., and Edie, D. D. (eds.), Carbon-Carbon Materials and Composites,
Noyes, Park Ridge, NJ, 1993.
13Volt, A., and WiUem, J. (eds.), Fibre Metal Laminates: An Introduction, Kluwer Academic Publishers, 2001.
Bibliography
Chawla, K. K., Composite Materials Science and Engineering, Springer-Verlag, New York.
Kelly, A., and Zweben, C. (eds.), Comprehensive Composite Materials, Elsevier, 2000. Mallick, P. K., (ed.), Composite Materials Handbook, Marcel Dekker, New York, 1997. Middleton, D. H. (ed.), Composite Materials in Aircraft Structures, Longrnans, UK, 1990. Niu, M. C. Y., Composite Airframe Structures, Comilit Press, Hong Kong, 1992.
Peel, C. J., "Advances in Materials for Aerospace," Aeronautical Journal, Vol. 100, 1996, pp. 487-506.