A. Jc, Utilisation d'un modèle à hasard proportionnel pour estimer la fiabilité des composants mécaniques, p.150, 1998.

[. , N. Ms, «. Chapman, and &. Hall, Accelerated life models : Modeling and Statical Analysis [BAR 77] BARROIS W, « Fiabilité des structures en fatigue basée sur l'utilisation des résultats en essais, Première partie », L'Aéronautique et l'Astronautique, n°66, Deuxième partie », L'Aéronau tique et l'Astronautique, pp.51-67, 1977.

W. Booth-rt, S. Dh, and . Np, Random vibrations of elastic systems, Martinces Nishoff Publishers (The Hague) 1984. [BOO 70 Variable load fatigue testing. Second report: test with small specimens. A comparison of loading patterns, and the influence of occasional high loads, 1969.

[. Epremian-e and M. Rf, Investigation of statistical nature of fatigue properties, NACA Technical note 2719, 1967.

. Fackler and . Wc, Equivalence techniques for vibration testing, NRL, Technical Information Division, SVM 9, 1972. [FOR 62] FORREST PG, Fatigue of metals, 1962.

F. Jr, Research on techniques of establishing random type fatigue curves for broad and sonic loading, ASTIA ? The Being Co, ou National-Aero-Nautical Meeting, SAE Paper 671C, 1962.

. Gough and . Hj, The fatigue of metals, pp.113-136, 1924.

[. El, M. P. , and «. , Nonparametric estimation from incomplete observations, Journal of the American Statistical Association, vol.53, pp.457-481, 1958.

. Meek98, E. Meeker-w, and . La, Accelerating degradation tests : modelling and analysis, Technometrics, vol.40, 1998.

M. Otva-b and «. , Facteurs d'influence sur l'endurance des aciers », Revue Pratique de Contrôle Industriel, pp.60-62, 1982.

M. Hf and K. Jb, The fatigue of metals, 1927.

[. and «. Nf, EN954-1 : Sécurité des machines ? Parties des systèmes de commande relatives à la sécurité ? Partie 1 : principes généraux de conception, 2001.

F. Nelson-dv and . Ho, Predictions of cumulative fatigue damage using condensed load histories ? Fatigue under Complex Loading, SAE, 1977.

[. Wj, P. Wj, and «. , Accelerated Test Models for System Strenght Based on Birnbaum-Saunders Distribution, Lifetime Data Analysis, vol.5, pp.133-147, 1999.

«. Rabbe-p, B. Mécanismes-et-mécanique-de-la-fatigue-claude, J. Paul, B. , and E. Hermès, Chapitre 1 de La fatigue des matériaux et des structures [RAN 43] RANKINE WJ, « On the cause of the unexpected breackage of the journals of railway axles and on the means of preventing such accidents by observing the law of continuity in their construction, Proc. Inst. Civil Engrs, pp.1843-105, 1980.

. Shi, L. Shin-ys, and . Rw, « Probability based high cycle fatigue life prediction », Random Life Fatigue Prediction, The 4 th National Congress on Pressure Vessel Piping Technology, ASME PVP, vol.7287, p.73, 1983.

S. Bi and M. Jd, Qualité et Organisation Angers, Cumulative fatigue damage under cyclic strain control, pp.174-175, 0199.

[. Aa, Estimating regression parameters using linear rank tests for censored data, Ann. Statist, vol.18, pp.353-372, 1990.

. Vill88, . Villemeur-a, and . Sureté, [WAD 56] WADE AR and GROOTENHUIS P, « very high speed fatigue testing » Internat, Working stresses related to fatigue in military bridges Proc. Stresses in Service, pp.759-361, 1956.

. Wei and . Wei-rp, Fracture Mechanics Approach to Fatigue Analysis in Design, Journal of Engineering Materials and Technology, vol.100, issue.2, p.113, 1978.
DOI : 10.1115/1.3443458

W. Jg and «. , Repeated rest periods in fatigue of mild steel bar », The Engineer, pp.1074-1076, 1961.

. Wirshing, Y. Ph, and . Jtp, A probabilistic design approach using the Palmgren Miner hypothesis, methods of Structural Analysis, ASCE, vol.1, pp.324-339, 1976.