Journal ArticleDOI
An Energy-Based Uniaxial Fatigue Life Prediction Method for Commonly Used Gas Turbine Engine Materials
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TLDR
In this paper, a new energy-based life prediction framework for calculation of axial and bending fatigue results at various stress ratios has been developed, which is capable of constructing prediction intervals based on a specified percent confidence level.Abstract:
A new energy-based life prediction framework for calculation of axial and bending fatigue results at various stress ratios has been developed. The purpose of the life prediction framework is to assess the behavior of materials used in gas turbine engines, such as Titanium 6Al-4V (Ti 6AI-4V) and Aluminum 6061-T6 (Al 6061-T6). The work conducted to develop this energy-based framework consists of the following entities: (1) a new life prediction criterion for axial and bending fatigue at various stress ratios for Al 6061-T6, (2) the use of the previously developed improved uniaxial energy-based method to acquire fatigue life prior to endurance limit region (Scott-Emuakpor et al., 2007, "Development of an Improved High Cycle Fatigue Criterion, " ASME J. Eng. Gas Turbines Power, 129, pp. 162-169), (3) and the incorporation of a probabilistic energy-based fatigue life calculation scheme to the general uniaxial life criterion (the first entity of the framework), which is capable of constructing prediction intervals based on a specified percent confidence level. The precision of this work was verified by comparison between theoretical approximations and experimental results from recently acquired Al 606-T6 and Ti 6Al-4V data. The comparison shows very good agreement, thus validating the capability of the framework to produce accurate uniaxial fatigue life predictions for commonly used gas turbine engine materials.read more
Citations
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Journal ArticleDOI
A Review on Fatigue Life Prediction Methods for Metals
Eleonora Santecchia,Abdel Magid Hamouda,Farayi Musharavati,Erfan Zalnezhad,Marcello Cabibbo,M. El Mehtedi,Stefano Spigarelli +6 more
TL;DR: In this paper, the authors present a review of fatigue life prediction techniques for metallic materials, including linear damage rule (LDR)-based, multiaxial and variable amplitude loading, stochastic-based, energy-based and continuum damage mechanics methods.
Journal ArticleDOI
Fatigue Life Estimation Considering Damaging and Strengthening of Low amplitude Loads under Different Load Sequences Using Fuzzy Sets Approach
TL;DR: In this article, a new linear damage accumu- lation rule is proposed to consider the strengthening and damaging of low amplitude loads with different sequences using fuzzy sets theory, and the predicted fatigue life by the proposed method is more accurate and reliable than that by the traditional ones.
Journal ArticleDOI
A thermodynamic approach to fatigue damage accumulation under variable loading
M. Naderi,Michael M. Khonsari +1 more
TL;DR: In this paper, a general procedure for assessment of damage evolution based on the concept of entropy production is proposed, which is applicable to both constant and variable amplitude loading, and the results of a series of bending fatigue tests under two-stage and three-stage loadings are reported to investigate the validity of the proposed methodology.
Journal ArticleDOI
Cumulative damage and life prediction models for high-cycle fatigue of metals : a review
Kris Hectors,Wim De Waele +1 more
TL;DR: This review article aims to provide a comprehensive overview of the state-of-the art in cumulative damage and lifetime prediction models for endurance based high-cycle fatigue design of metal structures.
Journal ArticleDOI
A nonlinear fatigue damage accumulation model considering strength degradation and its applications to fatigue reliability analysis
TL;DR: In this paper, the analysis of damage accumulation plays a key role in pre-vegetation and pre-deletion of cyclic loading of the human body, which is a damage accumulation process in which the material property deteriorates and degenerates continuously under cyclic load.
References
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Book
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A New Approach to the Evaluation of Fatigue Under Multiaxial Loadings
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Microplastic Strain Hysteresis Energy as a Criterion for Fatigue Fracture
C. E. Feltner,Jo Dean Morrow +1 more
TL;DR: In this paper, an energy criterion for fatigue failure is proposed, based on a relation between stress amplitude and the number of cycles to failure which utilizes only material properties obtained from the static true stress-strain tension test.
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Critical issues in high cycle fatigue
TL;DR: In this article, three major sources of in-service damage have been identified which can alter the HCF resistance individually or in conjunction with one another: low cycle fatigue (LCF), foreign object damage (FOD), and fretting.