Composite Materials: Fatigue and Fracture, Second Volume

    Lagace PA
    Published: 1989

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    Important and useful information on concerning fatigue and fracture of composite materials. Majority of papers deal with composite systems of thermosetting epoxies. Some attention to more recent thermoplastic systems. Section headings: Fatigue and Damage Growth; Models and Analysis; Delamination; and Structural Aspects.

    Table of Contents

    Lagace P.

    Effects of Matrix Toughness on Fatigue Response of Graphite Fiber Composite Laminates
    Bakis C., Simonds R., Stinchcomb W.

    Fatigue Life Prediction of Cross-Ply Composite Laminates
    Daniel I., Lee J., Yaniv G.

    Consideration of Environmental Conditions for the Fatigue Evaluation of Composite Airframe Structure
    Berg M., Gökgöl O., Gerharz J.

    Fatigue Damage Development in Notched (02/±45)s Laminates
    Chinatambi N., Poursartip A.

    Damage Initiation and Growth in Notched Laminates Under Reversed Cyclic Loading
    Bakis C., Reifsnider K., Stinchcomb W., Yih H.

    Fatigue of Composite Materials—Damage Model and Life Prediction
    Han K., Hwang W.

    The Influence of Fiber, Matrix, and Interface on Transverse Cracking in Carbon FiberReinforced Plastic Cross-Ply Laminates
    Peters P.

    Micromechanics of Compression Failures in Open Hole Composite Laminates
    Bradley W., Elber W., Guynn E.

    Dynamic Delamination Buckling in Composite Laminates Under Impact Loading: Computational Simulation
    Aiello R., Chamis C., Grady J.

    Edge Stresses in Woven Laminates at Low Temperatures
    Kriz R.

    Predicting Interlaminar Fatigue Crack Growth Rates in Compressively Loaded Laminates
    Russell A., Street K.

    Mode I Interlaminar Fracture Toughness of Unidirectional Carbon Fiber Composites Using a Novel Wedge-Driven Delamination Design
    Gifford S., Glessner A., Takemori M., Vallance M.

    Mode II Delamination Fracture Toughness of Unidirectional Graphite/Epoxy Composites
    Bradley W., Corleto C.

    Interlaminar Shear Fracture Toughness and Fatigue Thresholds for Composite Materials
    Murri G., O'Brien T., Salpekar S.

    Mode I and Mode II Delamination of Thermosetting and Thermoplastic Composites
    Benzeggagh M., Davies P., de Charentenay F., Prel Y.

    Free-Edge Delamination Characteristics in S2/CE9000 Glass/Epoxy Laminates Under Static and Fatigue Loads
    Chan W., Wang A.

    Characterization of Matrix Toughness Effect on Cyclic Delamination Growth in Graphite Fiber Composites
    Kochhar N., Mall S., Yun K.

    Delamination Failure Modes in Filament-Wound Composite Tubes
    Foral R., Gilbreath D.

    Fracture of Pressurized Composite Cylinders with a High Strain-to-Failure Matrix System
    Lagace P., Saeger K.

    Fiber Composite Structural Durability and Damage Tolerance: Simplified Predictive Methods
    Chamis C., Ginty C.

    Impact Damage Characteristics of Bismaleimides and Thermoplastic Composite Laminates
    Dan-Jumbo E., Leewood A., Sun C.

    Lateral Impact of Composite Cylinders
    Beckwith S., Christoforou A., Swanson S.

    Delamination Damage in Central Impacts at Subperforation Speeds on Laminated Kevlar/Epoxy Plates
    Liu D., Malvern L., Sun C.

    Author Index

    Subject Index

    Committee: E08

    DOI: 10.1520/STP1012-EB

    ISBN-EB: 978-0-8031-5075-1

    ISBN-13: 978-0-8031-1190-5

    ASTM International is a member of CrossRef.