Back to School Savings: Save up to 30% on print books and eBooks. No promo code needed.
Back to School Savings: Save up to 30%
Fatigue in Composites
Science and Technology of the Fatigue Response of Fibre-Reinforced Plastics
1st Edition - October 31, 2003
Editor: Bryan Harris
9 7 8 - 1 - 8 5 5 7 3 - 6 0 8 - 5
9 7 8 - 1 - 8 5 5 7 3 - 8 5 7 - 7
This major handbook is the first authoritative survey of current knowledge of fatigue behaviour of composites. It deals in detail with a wide range of problems met by designers in… Read more
Save 50% on book bundles
Immediately download your ebook while waiting for your print delivery. No promo code is needed.
This major handbook is the first authoritative survey of current knowledge of fatigue behaviour of composites. It deals in detail with a wide range of problems met by designers in the automotive, marine and structural engineering industries. Compiled from the contributions of some of the best-known researchers in the field, it provides an invaluable, practical and encyclopaedic handbook covering recent developments.
Comprehensively discusses the problems of fatigue in composites met by designers in the aerospace, marine and structural engineering industries
Provides a general introduction on fatigue in composites before reviewing current research on micromechanical aspects
Analyses various types of composites with respect to fatigue behaviour and testing and provides in-depth coverage of life-prediction models for constant variable stresses
Designers in the aerospace, marine and structural engineering industries; Materials scientists
Part 1 Introduction to fatigue in composites: A historical review of the fatigue behaviour of fibre-reinforced plastics; Fatigue test methods, problems and standards; Fatigue under multiaxial stress systems. Part 2 Micromechanical aspects of fatigue in composites: The effects of aggressive environments on long-term behaviour; The effect of interface on the fatigue performance of fibre composites; Delamination fatigue; The fatigue of hybrid composites; Non-destructive evaluation of damage accumulation. Part 3 Fatigue in different types of composites: Short-fibre thermoset composites; Woven-fibre thermoset composites; Fatigue of thermoplastic composites; Fatigue of wood and wood panel products. Part 4 Life-prediction methods for constant stress and variable stress: Physical modelling of damage development in structural composite materials under stress; Micromechanical models; A computational meso-damage model for life prediction for laminates; A statistical study of the fatigue performance of fibre-reinforced composite laminates; Analysis of matrix crack-induced delamination in composite materials under static and fatigue loading; Fatigue strength of composites under variable plane stress; Life prediction under service loading spectra; A parametric constant-life model for prediction of the fatigue lives of fibre-reinforced plastics; A neural-network approach to fatigue-life prediction; The fatigue performance of composite structural components; Fatigue of joints in composite structures; Fatigue in filament-wound structures; Fatigue of FRP composites in civil engineering applications; Fatigue in aerospace applications; Fatigue and durability of marine composites.