M. Okazaki and T. Koizjmi, Effect of Strain Wave Shape on Thermal-Mechanical Fatigue Crack Propagation in a Cast Low-Alloy Steel, Journal of Engineering Materials and Technology, vol.105, issue.2, pp.81-87, 1983.
DOI : 10.1115/1.3225630

T. C. Korn, Aspects expérimentaux et modélisation de la durée de vie en fatigue thermomécanique dans le cas des aciers Cr-Mo-V, 316L et de I'alliage WM, 1988.

U. M. Tl, L. Francois, and . Remy, Thennal-mechanical fatigue of MAR-M 509 superalloy. Comparison with low cycle fatigue behaviour, Fatigue Fract. Engng. Mater. Struct, vol.14, issue.1, pp.115-129

I. S. Tarra, Relationship between thermal fatigue and low-cycle fatigue at elevated temperature" Fatigue at Elevated Temperatures, ASTM STP 520, pp.80-101, 1973.

S. S. Manson, L. F. Coffin, and M. Basquin, Fatigue, a complex subject -Some simple approximation Expérimental Mechanics, 1965. tl4l S. TAIRA and M. zuJINO "Effect of mean tempenture and temperature mnge on thermal fatigue strengh of a low carbon steel, Mechanical Behaviour of Material, vol.2, p.49, 1980.

J. L. Chabocite, Description thermodynamique etphénoménologie de laviscoplasticité cyclique avec endommagement, 1978.

J. Len{aitre and J. L. Chaboche, Aqloct phénoménologique de la rupture par endommagement, Journal de Mécanique Appliquée, vol.2, issue.3, pp.3-7, 1978.

J. L. Irtl and . Chaboci{e, Une loi différentielle d'endommagement de fatigue avec cumulation non- linéaire" Revue Française de Mécanique, pp.1-82, 1974.

G. Degalu, I. , S. Degalu-'ix, and J. Foct, A damage law for predicting the evevated temperatur? low cycle fatigue life of a martensitic stainless steel n, Maûerials Scence and Engineering, vol.58, p.5542, 1983.

G. Degali-aix, J. Foct-ecf4, K. L. Maurer, F. E. Matzer, G. Degaliaix et al., High temperature low cycle fatigue of a martensitic stainless steel New damage model, applied to themral fatigue, Lifetime prediction on Cr-MeV and 316L steel under thermal and mechenical cycling, pp.672-679

K. Kljwabara, A. Mtta, and T. Kitami-'ira, Thermal-mechanical fatigue life prediction in high t?mperature comPonent materials for power plantn ASME Int, Conf. on Advances in Life Prediction Methodes, pp.131-141, 1983.

A. I22l and K. Mtta, KLJIVABARA nThermal-mechanical fatigue failure and life prediction

G. R. I23l and S. S. Halford, IANSON nl-ife prediction of thermal-mechanical fatigue using strainrang partitioning, ASTM STP, vol.612, pp.39-41

S. S. Il4l, MANSON nFuture directions for low cycle fatigue

J. Références-'l25l, J. L. Letviaitre, and . Chaboche, Mécanique de matériaux solides, BORDAS, 1988.

D. N{arquts, Modélisation et identification de I'ecrouissage anisotrope des metaux, 1979.

K. I27l, F. Golos, . K. Ellyin, F. Golos, and . Ellyin, A Total Strain Energy Density Theory for Cumulative Faeigue Damage Journal of Pressure Vessel Technology, VoI.l10Total Strain Energy Density as a Fatigue Damage parameter Advances in Fatigue Science and Technologie, pp.36-41, 1988.

D. J. I29l, E. G. Beauchamp, and . Ellson, A rig for conmolled cyclic strain and temperature testing, Journal of Strain Analysis, vol.17, issue.1, pp.45-52, 1982.

J. L. Chabociie, D. Van, and C. , Modelization of the strain memory effect on the cyclic hardening of 316 stainless steel, SMIRT 5, p.979

C. E. Jacke, H. Mindlin, and J. S. Perrin, Cyclic stress-strain behaviour of two alloys at high temperature, ASTM STP, vol.519, pp.13-27, 1973.

K. Yamaguchi and S. Nishijima, PREDICTION AND EVALUATION OF LONG-TERM CREEP-FATIGUE LIFE, Fatigue & Fracture of Engineering Materials and Structures, vol.99, issue.2
DOI : 10.1115/1.3454531

J. O. Ntlsson, THE INFLUENCE OF NITROGEN ON HIGH TEMPERATURE LOW CYCLE FATIGUE BEHAVIOUR OF AUSTENITIC STAINLESS STEELS, Fatigue & Fracture of Engineering Materials & Structures, vol.3, issue.1, pp.55-64, 1984.
DOI : 10.1007/BF02663418

\. J. Plumeridge, M. E. Dalski, and P. J. Castle, High strain fatigue of a type 316 stainless steel

T. W. Vandermeljlen, W. Hendrd-(, V. Massaut, J. Van-de, C. Veide et al., Testresults (Fafuma I and Fafuma 2

T. Slot and R. H. Stentz, Expenrimenal procedures for low-cycle-fatigue research at high temperatures, Experimental Mechanics, 1968.

C. Levaili-ant, B. Rezgui, and A. Pineau, Effects of environment and hold times on high temperature low cycle fatigue behavior of 316L stainless steel, ICM 3, vol.2, pp.163-172, 1979.

C. Levaillai{t and A. Pineau, Assessment of high+emperature low-cycle fatigue life of austenitic stainless saeefs by using intergranular damage as a correlating pararneter, ASTM STP, vol.770, pp.169-193, 1982.