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Purpose: In the current research, fatigue tests of cast iron (GS51) have been conducted using the ultrasonic fatigue system and monitored by an advanced infrared imaging system in real time. Fatigue damage processes has been observed and analyzed. Furthermore, heat condition effect has been to analyze. Design/methodology/approach: Fatigue behaviour in the very high cycle regime of 1010 cycles were investigated with a cast iron (GS51) under ultrasonic fatigue test system in ambient air at room temperaturę with a stress ratio R=-1. The influence of frequency was examined by comparing similar data generated on conventional servo hydraulic test systems. An infrared camera was also used to record specimen temperatures at various load levels caused by internal damping due to cycling at a very high frequency. Findings: The S-N curves obtained show that fatigue failure occurred beyond 10 9 cycles, fatigue limit does not exist for the cast iron and there is no evidence of frequency effect on the test results. A detailed study on fatigue specimens subjected to ultrasonic frequency shows that the temperature evolution of the cast iron specimen is very evident, the temperature increased just at the beginning of the test, the temperature increased depending on the maximum stress amplitude. Research limitations/implications: Ultrasonic fatigue test methodology had been applied extensively in exploring fatigue lives at very high cycle regime. However, it is a predominant problem that the thermal Energy dissipation results in increasing of temperature of specimen at very high frequency fatigue experiment. In order to investigate the heat dissipation of ultrasonic fatigue specimen and understand the influence of temperaturę evolution on the fatigue properties, it is necessary to obtain the temperature response of vibratory specimen. Originality/value: Early stage of damage of the cast iron which lead to crack initiation and micro crack growth are characterized by local microstructure temperature evolution, so as to understand the relationship between heat dissipation and fatigue state of material.
Wydawca
Rocznik
Tom
Strony
251--254
Opis fizyczny
Bibliogr. 12 poz., rys., tab., wykr.
Twórcy
autor
- ITMA/CNAM- Arts et Métiers, School of Mechanical Engineering, Paris, France
- Supmeca/LISMMA-Paris, School of Mechanical and Manufacturing Engineering, France
autor
- ITMA/CNAM- Arts et Métiers, School of Mechanical Engineering, Paris, France
- Supmeca/LISMMA-Paris, School of Mechanical and Manufacturing Engineering, France
autor
- ITMA/CNAM- Arts et Métiers, School of Mechanical Engineering, Paris, France
Bibliografia
- [1] C.J. Bathias: Ni, Determination of fatigue limit between 105 and 109 cycles using an ultrasonic fatigue device, Advances in fatigue lifetime predictive techniques, ASTM STP 1211, M. R. Michell and R. W. Landgraf eds., Vol. 2, 141-152, ASTM Philadelphia,1993
- [2] H.Q. Xue, H. Tao, C. Bathias The Analysis of Specimen Design for Fatigue Test at Ultrasonic Frequency. “The 3rd International Conference on Very High Cycle Fatigue”, Tokyo, Japan, Sept. 2004.
- [3] Q.Y. Wang, J.Y. Berard, Rathery, C. Bathias: High-cycle fatigue crack initiation and propagation behaviour of high-cycle spring steel wires. Fatigue Fract Eng Mater Struct 1999; 22(8):673-7
- [4] C. Bathias, How and why the fatigue S-N curve does not approach a horizontal asymptote. International journal of fatigue, 2001,23(1):143-151
- [5] H. Mayer, M. Papakyriacou, B. Zettl, S.E. Stanzl-Tschegg: Influence of porosity on the fatigue limit of die cast magnesium and aluminium alloys. International journal of fatigue, 2003(25):245-256
- [6] E. Bayraktar, C. Bathias, H. Xue, Tao Hua: On the giga cycle fatigue behaviour of two-phase (α2+γ) TiAl alloy. International Journal of Fatigue, No.12, 2005
- [7] G.H. Norbert, Meyendorf, H. Rosner, V. Kramb, S. Sathish. Thermo-acoustic fatigue characterization. Ultrasonics, 2002(40):427-434
- [8] L. Jiang, C.R. Brooks, P.K. Liaw, H. Wang: High-frequency metal fatigue : the high-cycle fatigue behawior of ULTIMET alloy. Materials science & engineering A, 2001(A314):162-175
- [9] I. Marines, Exploration de la fatigue des métaux au-dela du milliard de cycles. Ph.D thesis, ITMA/CNAM, Paris France, 2004
- [10] X. Kong, K. Saanouni, C. Bathias: On the fatigue at very high frequency, part 1: Theoretical and variation formulation. Journal of Engineering Materials and technology, 1991,113:205-209
- [11] A.L. Audenino, V. Crupi, E.M. Zanetti, Correlation between thermography and internal damping in metal. International journal of fatigue, 2003,(25):343-351
- [12] Q.Y. Wang: Etude de la fatigue gigacyclique des alliages ferrous. Ph.D thesis, Ecp, 1998
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-7f4e667f-7159-4a33-87cf-bcbc15929621