Evaluation of Low Cycle Fatigue Strength

• Autorzy: Medekshas H.
• Konferencja: The First European Summer School of Fatigue and Fracture (ESSFF1) and The Ninth Polish-Ukrainian-German Summer of Fracture Mechanics (SSFM9) on NEW RESULTS IN FATIGUE AND FRACTURE. Vol.1 (1,9;19-26.06.2005;Zakopane;Polska)
• Języki publikacji: EN

Słowa kluczowe

EN

fatigue strength

• Wydawca: Oficyna Wydawnicza Politechniki Opolskiej
• Czasopismo: Zeszyty Naukowe. Mechanika / Politechnika Opolska
• Rocznik: 2005
• Tom: z. 79
• Strony: 151--171
• Opis fizyczny: Bibliogr. 18 poz., tab., wykr.

Twórcy

autor

Medekshas H.

• University of Technology, Kaunas

Bibliografia

• [1] Manson, S.S. Exp.M, vol.5,Nr.7, 1965, pp.l93-201.
• [2] Coffin, L.F. Fatigue at high temperature-prediction and interpretation. Proc.Inst. Mech. Eng. Vol.188, 1974,pp.109-127.
• [3] Schijve J. Fatigue of structures and materials in 20th century and the state of the art. Int J Fatigue 2003;25:679-702.
• [4] Balina V.S., Medekshas H. Sttength, durability and resistance to crack propagation of structures subjected to cyclic loading. S.Petersburg: Politechnika; 1994. p. 205
• [5] Savaidis A, Savaidis G and Zhang Ch. FE fatigue analysis of notched elastic-plastic shaft under multiaxial loading consisting of constant and cyclic components. Int. J. Fatigue 2001;23;303-315.
• [6] Evans WJ, Bache MR, Nicholas PJ. The prediction of fatigue life at notches in the near alpha litaniurn alloy Timetal 834. Int J Fatigue 2001;23:S103-S109
• [7] ASME Boiler and Pressme Vessel Code, Sect.XI. -The American Society of Mechanical Engineers; 1989;4.
• [8] Medeksas,H, Balina,.V. Lifetime modeling of structural, elements. 47 Internauonales W1ssenschafthches Kolloqumm, 23-26.09.2002. Maschinenbau und Nanotechnologie Hochtechnologiendes 21 Jahrhunderts. Technische Universitat Ilmenau 2002:125-134.
• [9] Troshchenko, A. V., Miller, K.J.and Femando,U. A simple criterion. for multiaxial fatugue life prediction under in-phase and out-of-phase tension-torsion. In: J.Solin, G.Marquis, A.Siljander and S.Sipila editors. Fatigue Design. ESIS 16. Mechanical Engineering Publications. London: 1993, p. 231-240.
• [1O] Raman, S.G.S. and Radhakrishnam, V.M. On cyclic stress-strain behaviour and low cycle fatigue life. Materials and Design, vol.23, 3, 2002,pp.249-254.
• [11] Neuber,H. Theory of stress concentration for shear strained prismatical bodies with arbitrary nonlinear stress-strain law. Trans ASME J Appl Mech 1961;28: 544-50.
• [12] Serensen,S., Schneiderovich R., Gusenkov, A. Deformation kinetics criteria of cyclic fracture,-ASTM, 1973, stp 520, p.670-678. .
• [13] Raske,D.T., Morrow, J.D. Mechanics of materials in low cycle fatigue testing. ASTM STP 465,ASTM,1969, p1-25. · .
• [14] Visvanatha,S.K., Straznicky,P.V. and Hewitt,R.L. Influence of strain estimation methods on life predictions using the local strain approach. Int. J. Fatigue 2000;22;8:675-681.
• [15] Makhutov,NA. Deformation fracture criteria and strength evaluation of structural elements. Moscow: Maschinostrojenie; 1981, p.251.
• [16] Sonsino, C.M. Influence of load and deformation-controlled multiaxial tests on fatigue life to crack initiation. Int. J. Fatigue 2001;23;2;159-167.
• [17] Boyd-Lee, A.D., Harrison,G.F., Henderson, M.B. Evaluation of standard life assessement procedures and life extension methologies for fracture-critical components. Int. J. Fatigue 2001;23;1:11-19.
• [18] Ganesh Sundara Raman and Radhakrishnan, V.M. On cyclic stress-strain low cycle fatigue life. Mater Des 2002;23;3;249-254.