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Search Results for fatigue curve
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Published: 01 January 1996
Fig. 6 Comparison of actual fatigue test results (open circles) with fatigue curves constructed by the four-point method from tensile data. Total fatigue life is a solid line and elastic and plastic components are dashed lines constructed from tensile data point (shown by X's). (a) 4340 steel
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Published: 01 December 1998
Fig. 46 Comparison of actual fatigue test results (open circles) with fatigue curves constructed by the four-point method from tensile data. Total fatigue life is a solid line and elastic and plastic components are dashed lines constructed from tensile data point (shown by Xs). (a) 4340 steel
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in Properties of Cast Copper Alloys
> Properties and Selection: Nonferrous Alloys and Special-Purpose Materials
Published: 01 January 1990
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in Properties of Cast Copper Alloys
> Properties and Selection: Nonferrous Alloys and Special-Purpose Materials
Published: 01 January 1990
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in Properties of Cast Copper Alloys
> Properties and Selection: Nonferrous Alloys and Special-Purpose Materials
Published: 01 January 1990
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Published: 01 January 1996
Fig. 35 Strain-life fatigue curve of x 2080-T4 composite with and without reinforcement. Stress controlled, R = −1, at room temperature. Source: Ref 73
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Published: 15 January 2021
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Published: 01 January 2000
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Published: 30 August 2021
Fig. 10 American Society of Mechanical Engineers smooth-bar fatigue curve for carbon and low-alloy steels (ultimate tensile strength < 550 MPa, or 80 ksi). Adapted from Ref 16
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Published: 30 August 2021
Fig. 23 Derivation of the strain-life fatigue curve adjusted for mean stress effects. Adapted from Ref 4
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in Fatigue, Creep Fatigue, and Thermomechanical Fatigue Life Testing
> Mechanical Testing and Evaluation
Published: 01 January 2000
Fig. 22 Typical strain-life fatigue curve showing elastic and plastic components, annealed 4340 steel
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in Fatigue, Creep Fatigue, and Thermomechanical Fatigue Life Testing
> Mechanical Testing and Evaluation
Published: 01 January 2000
Fig. 23 Schematic axial fatigue curve illustrating the effect of tensile mean stress. After Ref 52
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Published: 15 June 2019
Fig. 2 T7651 S / N fatigue curve. Tested using open-hole test specimen according to ASTM E 466. Typical L-T orientation curve shown for 100-mm (4-in.) gage specimen. Source: Ref 4
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Published: 15 June 2019
Fig. 1 518.0-F, die cast aluminum casting rotating-beam fatigue curve. Smooth and notched specimens from one lot, with comparison to prior test.
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Published: 15 June 2019
Fig. 2 518.0-F, die cast aluminum casting rotating-beam fatigue curve. Smooth and notched specimens from one lot. As-cast notched specimen has radius <0.25 mm (<0.01 in.)
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Published: 15 June 2019
Fig. 1 C712.0-F, permanent mold aluminum casting rotating-beam fatigue curve. Smooth and notched specimens from one lot. Source: Ref 1
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Published: 15 June 2019
Fig. 2 852.0-T5, permanent-mold aluminum casting rotating-beam fatigue curve. Smooth and notched specimens from two lots
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Published: 01 January 1997
Fig. 6 Schematic showing the fatigue curve with the distribution of lives at three different stress levels. Note that the distribution widens as the stress level decreases. Source: Ref 11
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Published: 09 June 2014
Fig. 45 (a) Fatigue curves of AISI 9310 carburized gears. (b) Fatigue curves of AISI 1552 dual-frequency induction-hardened gears. (c) Summary. Source: Ref 36
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Series: ASM Handbook
Volume: 8
Publisher: ASM International
Published: 01 January 2000
DOI: 10.31399/asm.hb.v08.a0009219
EISBN: 978-1-62708-176-4
... is discussed. The techniques for defining a mean fatigue curve and evaluating scatter or variability about that mean are explained. The article presents the standard techniques for statistical characterization of the fatigue strength or fatigue limit of a single material by use of the Probit method, the up...
Abstract
This article reviews the planning of fatigue experiments, including the structure of a test plan, randomization, and nuisance variables. The statistical characterization of the S/N (stress/life) or e/N (strain/life) response of a single material tested under a single condition is discussed. The techniques for defining a mean fatigue curve and evaluating scatter or variability about that mean are explained. The article presents the standard techniques for statistical characterization of the fatigue strength or fatigue limit of a single material by use of the Probit method, the up-and-down (staircase) method, and two-point procedures. Stress-level selection methods are also presented. The article discusses the comparison of the fatigue behavior of two or more materials for data generated at a single stress or strain level. Treatments to compare data generated over a range of stress or strain levels are included. The article also summarizes the consolidation of fatigue data generated at different conditions.
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