Life Prediction Methodology for Titanium Matrix Composites

    Johnson S, Larsen J, Cox B
    Published: 1996

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    This collection of work represents the tremendous progress that has recently been made toward the characterization and modeling of Titanium Matrix Composites (TMCs), including microstructural aspects, stress analysis, and life models. 29 papers divided into five sections cover:

    • Interfacial Properties and Microstructure

    • Fiber Bridging Behavior

    • Inelastic Material Behavior and Modeling

    • Fatigue

    • and Life Predictions.

    Table of Contents

    Cox B., Johnson S., Larsen J.

    Interfacial Mechanics and Macroscopic Failure in Titanium-Based Composites
    Clyne T., Feillard P., Kalton A.

    Effects of Reaction Layer on Interfacial Shear Properties and Strength of Fiber in Silicon-Carbide (SiC) Fiber-Reinforced Titanium Alloy Composite
    Fujiwara C., Fukushima A., Kagawa Y., Masuda C.

    Fiber-Matrix Micromechanics and Microstructural Observations Under Tensile and Cyclic Loading
    Davidson D.

    The Role of Frictional Sliding in Transverse Failure of a Titanium Aluminide Composite
    Cox B., Kouris D., Marshall D., Morris W.

    Issues Related to Prediction of Residual Stresses in Titanium Alloy Matrix Composites
    Jayaraman N., Rangaswamy P.

    Stress Transfer Mechanics: Models that Should be the Basis of Life Prediction Methodology
    McCartney L.

    Crack-Bridging Effects in Notch Fatigue of SCS-6/TIMETAL 21S Composite Laminates
    Ashbaugh N., Jira J., John R., Larsen J.

    High Temperature/High Frequency Fatigue Crack Growth in Titanium Metal Matrix Composites
    Ghonem H., Zheng D.

    Modeling and Prediction of Crack Arrest in Fiber-Reinforced Composites
    Barney C., Bowen P., Cardona D.

    Sustained Load Behavior of SCS-6/TIMETAL 21S Composite
    Ashbaugh N., John R., Khobaib M.

    Inelastic Deformation Mechanisms in SCS-6/Ti 15-3 Metal Matrix Composite (MMC) Lamina Under Compression
    Brust F., Majumdar B., Newaz G.

    A Fully Associative, Nonlinear Kinematic, Unified Viscoplastic Model for Titanium-Based Matrices
    Arnold S., Castelli M., Saleeb A.

    Inelastic Deformation of Titanium Matrix Composites Under Multiaxial Loading
    Herakovich C., Lissenden C., Pindera M.

    Time-Dependent Deformation of Titanium Metal Matrix Composites
    Bahei-El-Din Y., Bigelow C., Mirdamadi M.

    A Comparison of Analysis Tools for Predicting the Inelastic Cyclic Response of Cross-Ply Titanium Matrix Composites
    Coker D., Kroupa J., Mall S., Neu R., Nicholas T., Robertson D.

    Modeling of Thermomechanical Fatigue in (0/±45/90)s Sigma/TIMETAL 21S Laminates
    Bahei-El-Din Y., Dvorak G., Nigam H., Wafa A.

    Prediction of Matrix Fatigue Crack Initiation from Notches in Titanium Matrix Composites
    Herrmann D., Hillberry B., Lawson E., Ward G.

    Fatigue Damage Evolution and Degradation of Mechanical Properties in Silicon-Carbide (SiC) Fiber-Reinforced Titanium Matrix Composites
    Jeng S., Wang P., Yang J.

    Matrix Fatigue Cracking in α2 Titanium Matrix Composites for Hypersonic Applications
    Gabb T., Gayda J.

    Characterization of Damage Progression in SCS-6/TIMETAL 21S [0]4 Under Thermomechanical Fatigue Loading
    Castelli M.

    Fatigue Maps for Titanium Matrix Composites
    Connell S., Du Z., Zok F.

    Characterization of Crack Growth Resistance Under Cyclic Loading in the Presence of an Unbridged Defect in Fiber-Reinforced Titanium Metal Matrix Composites
    Bowen P.

    A Hot-Spot Thermal Fatigue Test of a Titanium Matrix Composite
    Wright P.

    A Methodology to Predict Damage Initiation, Damage Growth, and Residual Strength in Titanium Matrix Composites
    Bakuckas J., Johnson W.

    Titanium Matrix Composite Durability Analyses for the Design of Airframe Structures
    Finefield M., Harmon D., Harter J., Saff C.

    Simulation of Fatigue Behavior of High Temperature Metal Matrix Composites
    Chamis C., Murthy P., Singhal S., Tong M.

    Life Prediction for Bridged Fatigue Cracks
    Cox B.

    Modeling and Life Prediction Methodology for Titanium Matrix Composites Subjected to Mission Profiles
    Johnson W., Mirdamadi M.

    Life Prediction of a [0/90] Metal Matrix Composite Under Isothermal and Thermomechanical Fatigue
    Neu R., Nicholas T., Russ S., Schehl N.

    Author Index

    Subject Index

    Committee: D30

    DOI: 10.1520/STP1253-EB

    ISBN-EB: 978-0-8031-5320-2

    ISBN-13: 978-0-8031-2039-6

    ASTM International is a member of CrossRef.