Subcommittee E08.05 on Cyclic Deformation and Fatigue Crack Formation


    Showing results 1-13 of 13 matching ACTIVE standards under the jurisdiction of E08.05     E08 Home

    E466-15 Standard Practice for Conducting Force Controlled Constant Amplitude Axial Fatigue Tests of Metallic Materials

        See also WK70915 proposed revision

    E468-18 Standard Practice for Presentation of Constant Amplitude Fatigue Test Results for Metallic Materials

    E606/E606M-19e1 Standard Test Method for Strain-Controlled Fatigue Testing

        See also WK65804 proposed revision

    E2207-15 Standard Practice for Strain-Controlled Axial-Torsional Fatigue Testing with Thin-Walled Tubular Specimens

    E2244-11(2018) Standard Test Method for In-Plane Length Measurements of Thin, Reflecting Films Using an Optical Interferometer

    E2245-11(2018) Standard Test Method for Residual Strain Measurements of Thin, Reflecting Films Using an Optical Interferometer

    E2246-11(2018) Standard Test Method for Strain Gradient Measurements of Thin, Reflecting Films Using an Optical Interferometer

    E2368-10(2017) Standard Practice for Strain Controlled Thermomechanical Fatigue Testing

        See also WK62058 proposed revision

    E2714-13(2020) Standard Test Method for Creep-Fatigue Testing

    E2789-10(2015) Standard Guide for Fretting Fatigue Testing

    E2948-16a Standard Test Method for Conducting Rotating Bending Fatigue Tests of Solid Round Fine Wire

    E3097-17 Standard Test Method for Mechanical Uniaxial Constant Force Thermal Cycling of Shape Memory Alloys

        See also WK71071 proposed revision

    E3098-17 Standard Test Method for Mechanical Uniaxial Pre-strain and Thermal Free Recovery of Shape Memory Alloys

        See also WK71072 proposed revision

    Showing results 1-1 of 1 matching Proposed New Standards under the jurisdiction of E08.05     E08 Home

    WK63833 In-Plane Biaxial Testing with Cruciform Type Specimens

    0 matching WITHDRAWN standards under the jurisdiction of E08.05     E08 Home