Fatigue limit by thermal analysis of specimen surface in mono axial traction test

Risitano, Giacomo; Giacomo, Reina; Clienti, C.

doi:10.1051/epjconf/20100638010

Cited by 14 publications

(11 citation statements)

References 24 publications

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“…Another method for the application of thermography to assess damage in homogeneous materials was recently proposed by Risitano et al (2010). This work is based on the experimental observation that during a static tensile test, the surface temperature of the specimens (i.e.…”

Section: Theory 21 Fatigue and Damage Modes In Compositesmentioning

confidence: 99%

“…A following sudden increase in DT happens in the last part of the static test. The end of the first linear part of the curve is related, according to experimental tests in Risitano et al (2010), to the fatigue limit of the tested material. Also, another recent application of this static method deals with polymeric materials (i.e.…”

Section: Theory 21 Fatigue and Damage Modes In Compositesmentioning

confidence: 99%

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Fatigue damage in GFRP

Colombo

Libonati

Vergani

2012

International Journal of Structural Integrity

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Purpose -Composite materials are increasingly used in the structural and mechanical fields, thanks to their high strength-to-weight ratios and the possibility of tailoring them to meet specific requirements. This study is focused on the damage to a glass fiber reinforced composite under different loading conditions. The aim is to find, by coupling mechanical tests with thermal analyses, a damage parameter, able to define the damage initiation in the studied material. Design/methodology/approach -The object of this work is a glass-fiber reinforced plastic (GFRP) laminate. To study the damage of this material under different loading conditions, static, dynamic and fatigue tests were carried out. During these tests, the surface temperature of the specimens was monitored by means of an IR-camera. In the dynamic tests, a D-mode (dissipation mode) analysis was also performed allowing the dissipated energy to be determined. Findings -In the literature, thermography is an experimental technique which has always been applied to the study of homogeneous materials. Results obtained from the proposed experimental tests on this GFRP composite show how this practice can be applied also to this kinds of materials, to identify their damage initiation. From these observations, the results can be used to definite a stress corresponding to the damage initiation, which can be related to the fatigue behavior, and useful in design stage with these materials. Originality/value -This paper provides for a useful tool to understand and predict fatigue behavior of a GFRP composite, from thermographic observations. Applications of thermography to the study of composite materials is an innovative research field, and the presented results seems satisfactory and promising for further experimental investigations.

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Section: Theory 21 Fatigue and Damage Modes In Compositesmentioning

confidence: 99%

Section: Theory 21 Fatigue and Damage Modes In Compositesmentioning

confidence: 99%

Fatigue damage in GFRP

Colombo

Libonati

Vergani

2012

International Journal of Structural Integrity

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“…The observation of the macroscopic temperature change during the tensile is the underlying principle of, among other things, the fatigue limit estimation method called Static Thermographic Method, where the variation of the slope of the stress strain versus temperature curve identifies the transition zone between thermoelastic and thermoplastic behavior when the beginning of irreversible micro-plasticization occurs. This moment is considered by the authors as the value of the fatigue limit of the tested material [26][27][28][29][30]. This method has also been used for notched metal specimens [31] Another approach to investigate the fatigue limit during tensile static tests was proposed in [32] where the authors estimated the dissipation and the area where the first increase of energy occurs.…”

Section: Introductionmentioning

confidence: 99%

Change of Specimen Temperature during the Monotonic Tensile Test and Correlation between the Yield Strength and Thermoelasto-Plastic Limit Stress on the Example of Aluminum Alloys

Lipski

2020

Materials

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This paper presents an attempt to generalize the description of the course of specimen temperature changes during the tensile test and to connect the value of the thermoelasto-plastic limit stress with the value of a clear (physical) or proof strength (offset yield strength) on the example of tests of the following aluminum alloy sheets used in Poland for airplane structures: 2024-T3 and D16 in three grades: D16ATV, D16CzATV, and D16UTV. A thermographic camera was used for specimen surface temperature measurement during the tensile test. The Portevine–Le Chatelier effect (the so-called PLC effect) was observed for tests of specimens cut from sheet plates, which was strongly reflected in the temperature fluctuations. The course of temperature change during tensile tests was divided into four characteristic stages related to the occurrence of a clear or offset yield strength. It was found that if there is a clear yield strength, the value of the thermoelasto-plastic limit stress was greater than this yield strength. If there was an offset yield strength, the value of the thermoelasto-plastic limit stress was lower than this yield strength. The differences in the aforementioned values of individual yield strengths did not exceed several percent. Thus, it can be concluded that the thermoelasto-plastic limit stress determined on the basis of the course of specimen temperature changes during the tensile test is well correlated with the value of the yield strength of the material.

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“…More recently, a new and fast method to determine the fatigue limit using IR thermography was proposed by Risitano and coworkers [34][35][36][37][38]. It analyzes the thermal variation in quasi-static uniaxial tensile tests.…”

Section: Puc-rio -Certificação Digital Nº 1521424/camentioning

confidence: 99%

“…The use of IR thermography methods in fatigue characterization consists on the measurement of the temperature rise on the external surface of the tested specimen during load application in order to identify a singular transition from a conservative and non-damaging state of energy to a dissipative and damaging one [24][25][26][27][28][29][30][31][32][33][34][35][36][37][38].…”

Section: Fatigue Strength Estimationmentioning

confidence: 99%

Modern Experimental Techniques With an Emphasis on Infrared Thermography to the Assessment of Fatigue Components With Dents

PAIVA¹

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Fatigue limit by thermal analysis of specimen surface in mono axial traction test

Cited by 14 publications

References 24 publications

Fatigue damage in GFRP

Fatigue damage in GFRP

Change of Specimen Temperature during the Monotonic Tensile Test and Correlation between the Yield Strength and Thermoelasto-Plastic Limit Stress on the Example of Aluminum Alloys

Modern Experimental Techniques With an Emphasis on Infrared Thermography to the Assessment of Fatigue Components With Dents

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