STP1263

    Thermomechanical Fatigue Behavior of Materials: Second Volume

    Verrilli MJ, Castelli MG

    Pages: 380

    Published: 1996

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    Contains the latest global developments in experimental and analytical approaches to thermomechanical fatigue problems.

    International experts in the field have presented 20 peer-reviewed papers with a special focus on high temperature applications and titaniummatrix composites.


    Table of Contents

    Thermomechanical Fatigue Behaviour of Coated and Bare Nickel-Based Superalloy Single Crystals
    Chataigner E., Remy L.

    Thermo-Mechanical Fatigue of the Monocrystalline Nickel-Base Superalloy CMSX-6
    Kraft S., Mughrabi H.

    On Thermal Fatigue of Nickel-Based Superalloys
    Engler-Pinto C., Meyer-Olbersleben F., RézaÏ-Aria F.

    Effects of Cycle Type and Coating on the TMF Lives of a Single Crystal Nickel Based Gas Turbine Blade Alloy
    Affeldt E., Bennett A., Bressers J., Timm J., Williams S.

    Crack Initiation in an Aluminide Coated Single Crystal During Thermomechanical Fatigue
    Affeldt E., Arana M., Bennett A., Bressers J., Martín-Meizoso A., Martínez-Esnaola J., Timm J.

    Coating Effects on Crack Growth in a Single Crystal Nickel Based Alloy During Thermo-Hechanical Fatigue
    Arana-Antelo M., Bressers J., Martin-Meizoso A., Martinez-Esnaola J., Timm J.

    Isothermal and Thermomechanical Fatigue of Type 316 Stainless Steel
    Davis D., Firth L., Zamrik S.

    Thermal Fatigue Behavior of a SUS304 Pipe Under Longitudinal Cyclic Movement of Axial Temperature Distribution
    Ohtani T., Takahashi Y., Yamauchi M.

    Assessing Crack Growth Behavior Under Continuous Temperature Gradients
    Cunningham S., DeLuca D.

    A Fully Associative, Nonisothermal, Nonlinear Kinematic, Unified Viscoplastic Model for Titanium Alloys
    Arnold S., Castelli M., Saleeb A.

    Thermal Fatigue Testing System for the Study of Gamma Titanium Aluminides in Gaseous Environments
    Dunfee W., Gao M., Miller C., Wei R., Wei W.

    Thermal Mechanical Fatigue Crack Growth in Titanium Alloys: Experiments and Modelling
    Dai J., Hongoh M., Marchand N.

    Analysis of the Thermoviscoplastic Behavior of [0/90] SCS-6/TIMETAL®21S Composites
    Coker D., Neu R., Nicholas T.

    Analysis of the Thermo-Mechanical Fatigue Response of Metal Matrix Composite Laminates with Interfacial Normal and Shear Failure
    Mall S., Robertson D.

    Damage Accumulation in Titanium Matrix Composites Under Generic Hypersonic Vehicle Flight Simulation and Sustained Loads
    Bakuckas J., Johnson W., Mirdamadi M.

    Fatigue Behavior of [0]8 SCS-6/Ti-6Al-4V Composite Subjected to High Temperature Turboshaft Design Cycles
    Aksoy S., Gabb T., Gayda J.

    Thermomechanical Fatigue Damage Mechanism Maps for Metal Matrix Composites
    Neu R.

    An Experimental and Analytical Investigation of Titanium Matrix Composite Thermomechanical Fatigue
    Ball D.

    Time- and Cycle-Dependent Aspects of Thermal and Mechanical Fatigue in a Titanium Matrix Composite
    Johnson D., Nicholas T.

    Modeling the Crack Growth Rates of a Titanium Matrix Composite Under Thermomechanical Fatigue
    Blatt D., Grandt A., Nicholas T.

    Author Index

    Subject Index


    Committee: E08

    Paper ID: STP1263-EB

    DOI: 10.1520/STP1263-EB

    ISBN-EB: 978-0-8031-5325-7

    ISBN-PRINT: 978-0-8031-2001-3

    ASTM International is a member of CrossRef.

    0-8031-2001-X
    978-0-8031-2001-3
    STP1263-EB