A new method for predicting the fatigue strength at various stress ratios based on damage of metallic materials

Gao, Chong; Pang, Jianchao; Hu, Dejiang; Li, Shouxin; Qi, Kaili; Wang, Bin; Zhang, Yanyan; Nie, Liangliang; Yang, Mengqi; Zhang, Zhefeng

doi:10.1111/ffe.14271

Cited by 2 publications

(1 citation statement)

References 48 publications

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“…Fatigue performance is one of the most important mechanical properties of mechanical structural parts and components [1,2]. Components and parts made of metallic and nonmetallic materials are prone to be subject to cyclic loads, and fatigue cracks form at the location where stress concentration is more prominent [3].…”

Section: Introductionmentioning

confidence: 99%

A Review of Fatigue Limit Assessment Using the Thermography-Based Method

Wei,

He,

Sun

et al. 2024

Metals

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Fatigue limit assessment methodologies based on the thermography technique are comprehensively studied in this work. Three fundamental indicators pertaining to temperature increase, intrinsic energy dissipation, and thermodynamic entropy are discussed in sequence. The main train of thought of thermo-based research is outlined. The main objective of this paper is, on the one hand, to describe some works that have been accomplished in this field and, on the other hand, to present further potential for future studies involving fatigue behaviors and thermography approaches.

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Section: Introductionmentioning

confidence: 99%

A Review of Fatigue Limit Assessment Using the Thermography-Based Method

Wei,

He,

Sun

et al. 2024

Metals

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The Evolution of Surfaces on Medium-Carbon Steel for Fatigue Life Estimations

Seensattayawong,

Kerscher

2024

Coatings

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Early in fatigue life, fatigue cracks are often initiated at persistent slip bands (PSBs), which play the main role in surface evolution when the components are subjected to cyclic loading. Therefore, this paper aims to study the behavior of the surface development of medium-carbon steel, specifically 42CrMo4 (SAE 4140). Tests were conducted using tension–compression fatigue testing with stress amplitudes set at 30%, 40%, and 50% of the ultimate tensile strength (UTS); a load ratio of R = −1; and a frequency of f = 10 Hz. The ultimate number of test cycles was 2 × 105. The fatigue test specimens with as-machined surface quality (Ra < 100 nm) were tested on a servo-hydraulic push–pull testing machine, and the tests were interrupted a few times to bring the specimens out for surface measuring with a confocal microscope. The linear roughness values of the arithmetic mean deviation (Ra), maximum height (Rz), maximum profile peak height (Rp), and maximum profile valley depth (Rv) were investigated and further used to determine the roughness evolution during cyclic loading (REC) by analyzing the inclinations of the fitting curves of roughness and number-of-cycles diagrams. REC could then be used to estimate and classify the fatigue lifetime.

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A new method for predicting the fatigue strength at various stress ratios based on damage of metallic materials

Cited by 2 publications

References 48 publications

A Review of Fatigue Limit Assessment Using the Thermography-Based Method

A Review of Fatigue Limit Assessment Using the Thermography-Based Method

The Evolution of Surfaces on Medium-Carbon Steel for Fatigue Life Estimations

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