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In this paper the basic methodology of the coupled response-degradation modelling of stochastic dynamical systems is presented along with the effective analysis of selected problems. First, the general formulation of the problems of stochastic dynamic s coupled with the evolution of deterioration process is given. Then same specific degrading oscillatory systems under random excitation are analyzed with a special attention on the systems with fatigue-induced stiffness degradation. Both, the general discussion and the analysis of seleeted exemplary problems indicate how the reliability of deteriorating stochastic dynamical systems can be assessed.
Rocznik
Tom
Strony
125--137
Opis fizyczny
Bibliogr. 37 poz., 7 rys.
Twórcy
autor
- Department of Dynamics of Complex Systems, Institute of Fundamental Technological Research, Polish Academy of Sciences, 21 Świętokrzyska St., 00-049 Warsaw, Poland, ksobcz@ippt.gov.pl
Bibliografia
- [1] K. Sobczyk, Stochastic Differential Equations with Applications to Physics and Engineering, Kluwer Acad. Publ., Dordrecht, 1991.
- [2] T.T. Soong and M. Grigoriu, Random Vibrations of Structural and Mechanical Systems, Prentice Hall, New Jersey, 1993.
- [3] Y.K. Lin and G.Q. Cai, Advanced Probabilistic Dynamics, McGraw Hill, New York, 1995.
- [4] K. Sobczyk and B.F. Spencer, Random Fatigue: From Data to Theory, Academic Press, Boston, 1992.
- [5] J.B. Roberts, "The response of an oscillator with bilinear hysteresis to stationary random excitation", ASME J. Appl. Mechanics 45, 923-928 (1978).
- [6] Y.K. Wen, "Stochastic response and damage analysis of inelastic structures", Probabilistic Eng. Mech. 1,57-69 (1986).
- [7] M. Grigoriu, "Reliability of degrading systems", Structural Safety 8, 345-351 (1990).
- [8] K. Sobczyk and J. Trębicki, "Stochastic response of degrading stochastic systems", in Rheology of Bodies with Defects (ed. R. Wang), Proc. IUTAM Symp., Kluwer Acad. Publ., Dordrecht, 1999.
- [9] K. Sobczyk and J. Trębicki, "Stochastic dynamics with fatigue induced stiffness degradation", Probabilistic Eng. Mech. 15, 91-99 (2000).
- [10] R.L. Grossmayer, "Elastic-plastic oscillators under random excitation", J. Sound and Vibration 65 (3), 353-379 (1979).
- [11] K. Sobczyk and J. Trębicki, "Modelling of random fatigue by cumulative jump processes", Eng. Fract. Mechanics 34 (2), 477-493 (1989).
- [12] M. Grigoriu, "Reliability of Daniels systems subject to quasistatic and dynamic nonstationary Gaussian load processes", Probabilistic Eng. Mech. 4 (3),128-134 (1989).
- [13] Rychlik and M. Grigoriu, "Reliability of Daniels systems with equal load sharing rule subject to stationary Gaussian dynamic loads", Probabilistic Eng. Mech. 7, 113-121 (1992).
- [14] K. Sobczyk, "On cumulative jump model s for random deterioration processes", Annals Universitatis M. Curie-Sklodowska Lublin, Vol. LI, 15, Sec. A, 145-157 (1997).
- [15] Y. Suzuki and R. Minai, "Application of stochastic differential equations to seismic reliability analysis of hysteretic structures", Probabilistic Eng. Mech. 3 (1), (1988).
- [16] J.B. Roberts, "The yielding behaviour of a randomly excited elasto-plastic structure", J. Sound and Vibration 72 (1), 71-85 (1980).
- [17] P.D. Spanos, "Hysteretic structural vibrations under random load", J. Acoust. Soc. Amer. 65,404-410 (1979).
- [18] P. Cawley and R.D. Adams, 'The location of defects in structures from measurements of natural frequencies", J. Strain Analysis 14,49-57 (1979).
- [19] T.G. Chondras, A.D. Dimaroganas, and J. Yao, "A continuous cracked beam vibration theory", J. Sound and Vibration 215 (1), 17-34 (1998).
- [20] J. Grasman and H. Roozen, "Reliability of stochastically forced systems", in Road- Vehicle-Systems and Related Mathematics (Ed. H. Neunzert, pp. 219-235), Kluwer Acad. Publ., 1989.
- [21] C.W. Gardiner, Handbook of Stochastic Methods for Physics, Chemistry and the Natural Sciences, Springer, Berlin, 1985.
- [22] Y. Kondo, "Prediction of fatigue crack initiation life based on a pit growth", Corrosion 45 (1), 7-11 (1989).
- [23] S. Kocańda, Fatigue Fracture, WNT, Warszawa, 1985, (in Polish).
- [24] K. Sobczyk, "Modelling of random fatigue crack growth", Eng. Fracture Mechanics 24 (4), 609-623 (1986).
- [25] H.O. Madsen, S. Krenk, and N.C. Lind, Methods of Structural Safety, Prentice Hall, New Jersey, 1986.
- [26] K. Sobczyk and J. Trębicki, "Maximum entropy principle and nonlinear stochastic oscillators", Physica A 193,448-468 (1993).
- [27] J. Trębicki and K. Sobczyk, "Maximum entropy principle and non-stationary distributions of stochastic systems", Probabilistic Eng. Mech. 11,169-178 (1996).
- [28] J. Lemaitre and J.L. Chaboche, Mechanics of Solid Materials, Cambridge Univ. Press, Cambridge, 1990.
- [29] K. Sobczyk and J. Trębicki, "On stochastic dynamic systems with degradation", Studies in Structural Mechanics, Cracow University of Technology, 302, 245-254 (2004), (in Polish).
- [30] G.E. Dieter, Mechanical Behaviour of Metals under Tension, McGraw Hill, New York, 1976.
- [31] S.W. Jemielianov, Theory of Systems with Varying Structure, Nauka, Moscow, 1970, (in Russian).
- [32] J. Trębicki, Stochastic Analysis of Vibratory Systems with Variable Structure, PhD Thesis, Inst. Fund. Technol. Res., Polish Academy of Sciences, Warsaw, 1996, (in Polish).
- [33] C. Jogrens, Methods for Analysis of Switching Stochastic Systems, PhD Thesis, Dept. of Math. Statistics, Lund University, Sweden, 1991.
- [34] W. Yang and Z. Suo, "Global view of microstructural evolution: energetics, kinetics and dynamical systems", Acta Mech. Sinica 12, 144-157 (1996).
- [35] Z. Suo, "Evolving material structures of small feature sizes", Int. J. Solids and Structures 37, 367-378 (2000).
- [36] K. Sobczyk, J. Trębicki, and A.B. Movchan, "Crack path in an elastic material with a random array of small defects", Int. J. Fracture 125, 103-123 (2004).
- [37] M. Ciarletta, G. Iovane, and M.A. Sumbatyan, "On stress analysis for cracks in elastic materials with voids", Int. J. Eng. Science 41, 2447-2461 (2003).
Typ dokumentu
Bibliografia
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bwmeta1.element.baztech-article-BPG5-0012-0080