Experimental Energy Balance During the First Cycles of Cyclically Loaded Specimens Under the Conventional Yield Stress

Connesson, Nathanaël; Maquin, F.; Pierron, Fabrice

doi:10.1007/s11340-010-9336-4

Cited by 32 publications

(45 citation statements)

References 46 publications

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“…This result confirms the link between the calorific quantity obtained from the proposed approach (s R ) and the irreversible mechanical phenomena occurring in the material. Interestingly, the results obtained here on a SMA are in agreement with those reported in Connesson et al [31] The latter concerns the cycling loading of another type of material, namely, a low carbon steel. The common feature is a mechanically dissipated energy, which varies due to the material adaptation and which converges toward a constant value while the material plastic work decreases.…”

Section: Figuresupporting

confidence: 92%

“…Some precautions can be taken to reduce these effects: The specimen can be placed in a box with apertures for the grips and the IR camera in order to minimize air motion and radiation sources from the outside; [31,32] testing machine running several hours before the beginning of the mechanical test in order to minimize the temperature change of the grips; air conditioning in the testing room. However, long-term cyclic tests with a hydraulic fatigue machine are always accompanied by a significant temperature increase in the grips during the test itself.…”

Section: Reduction Of Parasitic Effectsmentioning

confidence: 99%

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A specific device for enhanced measurement of mechanical dissipation in specimens subjected to long‐term tensile tests in fatigue

Delpueyo

Balandraud

Grédiac

et al. 2017

Strain

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This paper presents a calorimetric approach to the measurement of mechanical dissipation in specimens subjected to cyclic tensile tests. Mechanical dissipation, that is, the heat power produced by the material due to mechanical irreversibility, can potentially be deduced from the temperature changes captured on the specimen surface by infrared thermography. However, a difficulty arises for long-term cyclic tests: Results are easily skewed by any change in the specimen's environment. The problem is amplified by the fact that mechanical dissipation is in general small compared to the heat sources associated with thermomechanical couplings, making its estimation difficult. The paper proposes a simple procedure to extract a well-resolved estimation of mechanical dissipation by solving two key points specific to long-term cyclic tests: (a) the reduction of the parasitic effects associated with changes in the specimen's environment by using a specific device based on two references samples and (b) the choice of relevant thermal data acquisition parameters. A test is performed on a copper-based shape-memory alloy whose calorific response comprises three origins of heat sources: thermoelastic coupling, phase transformation, and mechanical irreversibility. The results obtained demonstrate the relevancy of the approach in extracting mechanical dissipation from the thermal response of the specimen subjected to long-term tensile tests in fatigue.

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Section: Figuresupporting

confidence: 92%

Section: Reduction Of Parasitic Effectsmentioning

confidence: 99%

A specific device for enhanced measurement of mechanical dissipation in specimens subjected to long‐term tensile tests in fatigue

Delpueyo

Balandraud

Grédiac

et al. 2017

Strain

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“…The symbol s 1D th stands for a time constant characterizing the lateral heat exchanges (i.e., thermal convection and radiation) between the specimen surface and the surroundings. Before the onset of damage localization, the thermoelastic source and the intrinsic dissipation source, just like stress and strain fields, are uniform within the specimen gauge part with constant cross-section at a macroscopic scale of observation [12,13].…”

Section: A Computation Model Of Intrinsic Dissipationmentioning

confidence: 99%

“…An infrared image processing procedure was proposed to implement this estimation. Maquin et al [12][13][14] developed an experimental method and a data processing procedure to obtain the small heat source generated during the very first cycles and to reveal the physical basis of the rapid determination of fatigue limit. Yang et al [15,16] established the one-dimensional distribution of specimen surface temperature and determined the fatigue life using local plastic work.…”

Section: Introductionmentioning

confidence: 99%

An energy method for rapid evaluation of high-cycle fatigue parameters based on intrinsic dissipation

Guo

Fan³

et al. 2015

International Journal of Fatigue

128

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“…The experimental methods most commonly used to research work on elastic-plastic problems are: photoelasticity, especially the method of photoelastic coating (Pacey et (Lin, 2000;Balalov et al, 2007), electronic speckle pattern interferometry method (ESPI) (Diaz et al, 2001;Schajer et al, 2005), digital image correlation method (DIC) (Vural et al, 2011;Diaz et al, 2004;Tarigopula et al, 2008), strain gauge technique (Rasty et al, 2007;Olmi, 2010), thermography (Pieczyska et al, 2006;Connesson et al, 2011).…”

Section: Introduction and The Experimental Methods Selectionmentioning

confidence: 99%

Experimental investigations of elastic-plastic strain states on various stages of material plastifying

Kozłowska

2016

jtam

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In the paper, the possibility of application of various experimental methods to the analysis of elastic-plastic states at different levels of material plastifying is presented. For tests carried out on two-dimensional elements with different stress concentrators and loaded by tensile stresses, three experimental methods have been selected: Moiré method, method of photoelastic coating and the thermography method. On the basis of the tests results, the range of the applicability of chosen methods and their suitability to the elastic-plastic strain analysis at the development of material plastifying has been determined. The strain components distribution obtained from the Moiré method and the method of photoelastic coating has been compared. The possibility of increasing the accuracy of strain determination for the Moiré method by additional tests at the grid rotated by an angle of 45• with respect to the direction of tensile stress has been shown. The results of the investigations have been discussed.

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Experimental Energy Balance During the First Cycles of Cyclically Loaded Specimens Under the Conventional Yield Stress

Cited by 32 publications

References 46 publications

A specific device for enhanced measurement of mechanical dissipation in specimens subjected to long‐term tensile tests in fatigue

A specific device for enhanced measurement of mechanical dissipation in specimens subjected to long‐term tensile tests in fatigue

An energy method for rapid evaluation of high-cycle fatigue parameters based on intrinsic dissipation

Experimental investigations of elastic-plastic strain states on various stages of material plastifying

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