Presenting a method of identifying and calculating the elastoplastic strain energy density with the instantaneous power of strain, authors of this paper propose using it as a fatigue life/parameter for materials prone to nonproportional cyclic hardening effect.
Issue Section:
Research Papers
References
1.
Doong
, S. H.
, Socie
, D. F.
, and Robertson
, I. M.
, 1990, “Dislocation Substructures and Nonproportional Loading
,” ASME J. Eng. Mater. Technol.
, 112
(4
), pp. 456
–465
. 2.
Socie
, D. F.
, 1987, “Multiaxial Fatigue Damage Models
,” ASME J. Eng. Mater. Technol.
, 109
, pp. 293
–298
. 3.
Itoh
, T.
, Sakane
, M.
, Ohnami
, M.
, and Socie
, D. F.
, 1995, “Nonproportional Low Cycle Fatigue Criterion for Type 304 Stainless Steel
,” ASME J. Eng. Mater. Technol.
, 117
(3
), pp. 285
–292
. 4.
Kida
, S.
, Itoh
, T.
, Sakane
, M.
, Ohnami
, M.
, and Socie
, D. F.
, 1997, “Dislocation Structure and Non-Proportional Hardening of Type 304 Stainless Steel
,” Fatigue Fract. Eng. Mater. Struct.
, 20
(10
), pp. 1375
–1386
. 5.
Shukaev
, S. N.
, and Okisjuk
, S. V.
, 2001, “A Method for the Evaluation of Fatigue Life under Nonproportional Low-Cycle Loading,” Strength of Materials
, 33
(3
), pp. 248
–254
.6.
Halford
, G. R.
, 1966, “The Energy Required for Fatigue
,” J. Mater.
, 1
(1
), pp. 3
–18
.7.
Morrow
, J. D.
, 1965, “Cyclic Plastic Strain Energy and Fatigue of Metals
,” ASTM Paper No. STP378.8.
Ellyin
, F.
, 1998, Fatigue Damage, Crack Growth and Life Prediction
, Chapman and Hall
, London
.9.
Kujawski
, D.
, 1991, Modelowanie trwalosci zmeczeniowej i propagacji pekniec w metalach
, Wydawnictwo Politechniki Warszawskiej
, Warszawa, Poland
.10.
Lefebvre
, D.
, and Ellyin
, F.
, 1984, “Cyclic Response and Inelastic Strain Energy in Low Cycle Fatigue
,” Int. J. Fatigue
, 6
(1
), pp. 9
–15
. 11.
Golos
, K.
, and Ellyin
, F.
, 1987, “Generalization of Cumulative Criterion to Multilevel Cyclic Loading
,” Theor. Appl. Fract. Mech.
, 7
, pp. 169
–176
. 12.
Lachowicz
, C. T.
, 2000, “Metoda obliczania wlasciwej energii odksztalcen sprezysto-plastycznych przy obciazeniach cyklicznych i losowych
,” Zeszyty Naukowe Politechniki Opolskiej
, 62
(257
), pp. 61
–82
.13.
Lachowicz
, C. T.
, 2001, “Calculation of the Elastic-Plastic Strain Energy Density Under Cyclic and Random Loading
,” Int. J. Fatigue
, 23
(7
), pp. 643
–652
. 14.
Marciniak
, Z.
, Lachowicz
, C. T.
, and Rozumek
, D.
, 2008, “The Energy Approach in the Calculation of Lives for High Cycle Fatigue Density in the Description of Fatigue Lives Under Non-Proportional Bending and Torsion
,” Selected Topics of Contemporary Solid Mechanics
(IFTR Reports Vol. 2), Instytut Podstawowych Problemow Techniki PAN
, Warsaw, Poland.15.
Marciniak
, Z.
, Lachowicz
, C. T.
, Rozumek
, D.
, and Macha
, E.
, 2007, “The Strain Energy Density in the Description of Fatigue Lives Under Non-Proportional Bending and Torsion
,” Proceedings of the 8th International Conference on Multiaxial Fatigue and Fracture (ICMFF8)
, Sheffield, 10–14 June 2007, EMAS Publishing, United Kingdom.16.
Rozumek
, D.
, Marciniak
, Z.
, and Lachowicz
, C. T.
, 2010, “The Energy Approach in the Calculation of Fatigue Lives Under Non-Proportional Bending With Torsion
,” Int. J. Fatigue
, 32
, pp. 1343
–1350
. 17.
Ohnami
, H.
, and Hamada
, N.
, 1981, “Crack Propagation Behavior of Biaxial Low-Cycle Fatigue at Elevated Temperature—Effect of the Cyclic Principal Stressing in Parallel With the Fatigue Crack and Rotation of Principal Stress Axes
,” J. Soc. Mater. Sci.
, 30
(335
), pp. 822
–928
.18.
Itoh
, T.
, Chen
, X.
, Nakagawa
, T.
, and Sakane
, M.
, 2000, “A Simple Model for Stable Cyclic Stress-Strain Relationship of Type 304 Stainless Steel Under Nonproportional Loading
,” ASME J. Eng. Mater. Technol.
, 122
, pp. 1
–9
. 19.
Langlais
, T.
, 1999, “Computational Methods for Multiaxial Fatigue Analysis
,” Ph.D. thesis, Faculty of the Graduate School, University of Minnesota, Minneapolis MN.Copyright © 2011
by American Society of Mechanical Engineers
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