How to cite this paper
Baharom, M., Nikbakht, E & Chatziioannou, K. (2023). Combined hardening parameters of high strength steel under low cycle fatigue.Engineering Solid Mechanics, 11(1), 35-40.
Refrences
ABAQUS (2014) Analysis User’s Manual. (2014). Dassault Systèmes Simulia Corp.
Abdel-Karim, M., & Ohno, N. (2000). Kinematic hardening model suitable for ratchetting with steady-state. International journal of plasticity, 16(3-4), 225-240.
Armstrong, P. J., & Frederick, C. O. (1966). A mathematical representation of the multiaxial Bauschinger effect (Vol. 731). Berkeley, CA: Berkeley Nuclear Laboratories.
Azadeh, M., & Taheri, F. (2016). On the response of dented stainless-steel pipes subject to cyclic bending moments and its prediction. Thin-Walled Structures, 99, 12-20.
Bari, S., & Hassan, T. (2002). An advancement in cyclic plasticity modeling for multiaxial ratcheting simulation. International journal of plasticity, 18(7), 873-894.
Chaboche, J.-L. (1986). Time-independent constitutive theories for cyclic plasticity. International journal of plasticity, 2(2), 149-188.
Chaboche, J.-L. (1991). On some modifications of kinematic hardening to improve the description of ratchetting effects. International journal of plasticity, 7(7), 661-678.
Hassan, T., Rahman, M., & Bari, S. (2015). Low-Cycle Fatigue and Ratcheting Responses of Elbow Piping Components. Journal of Pressure Vessel Technology, 137(3).
Islam, N., & Hassan, T. (2019). Development of a novel constitutive model for improved structural integrity analysis of piping components. International Journal of Pressure Vessels and Piping, 177.
İşler, M. (2018). Analysis of ratcheting by using different yield criteria and kinematic hardening models for uniaxial and biaxial loading [Master Thesis, Middle East Technical University]. Jiang, Y., & Sehitoglu, H. (1996a). Modeling of cyclic ratchetting plasticity, part I: development of constitutive relations.
Jiang, Y., & Sehitoglu, H. (1996b). Modeling of cyclic ratchetting plasticity, part II: comparison of model simulations with experiments.
Kyriakides, S., & Shaw, P. K. (1987). Inelastic Buckling of Tubes Under Cyclic Bending. Journal of Pressure Vessel Technology, 109(2), 169-178.
Lu, X. (2003). Influence of Residual Stress on Fatigue Failure of Welded Joints North Carolina State University].
Macedo, J., Chapuliot, S., Bergheau, J.-M., Feulvarch, E., Ancelet, O., & Martin, A. (2020). A Historical Overview of Design Analyses and Experimental Observations of Ratcheting Phenomenon. ASME 2020 Pressure Vessels & Piping Conference,
McDowell, D. (1995). Stress state dependence of cyclic ratchetting behavior of two rail steels. International journal of plasticity, 11(4), 397-421.
Moslemi, N., Gol Zardian, M., Ayob, A., Redzuan, N., & Rhee, S. (2019). Evaluation of Sensitivity and Calibration of the Chaboche Kinematic Hardening Model Parameters for Numerical Ratcheting Simulation. Applied Sciences, 9(12), 2578.
Ohno, N., & Wang, J.-D. (1993). Kinematic hardening rules with critical state of dynamic recovery, part I: formulation and basic features for ratchetting behavior. International journal of plasticity, 9(3), 375-390.
Rahmatfam, A., Zehsaz, M., & Chakherlou, T. N. (2019). Ratcheting assessment of pressurized pipelines under cyclic axial loading: Experimental and numerical investigations. International Journal of Pressure Vessels and Piping, 176, Article 103970.
Rudland, D., Brust, F., & Wilkowski, G. (1996). The effects of cyclic and dynamic loading on the fracture resistance of nuclear piping steels. Technical report, October 1992--April 1996.
The MathWorks, I. (2020). Curve Fitting Toolbox. In https://www.mathworks.com/products/curvefitting.html
Zakavi, S., Zehsaz, M., & Eslami, M. (2010). The ratchetting behavior of pressurized plain pipework subjected to cyclic bending moment with the combined hardening model. Nuclear Engineering and Design, 240(4), 726-737.
Zeinoddini, M., Ezzati, M., & Fakheri, J. (2014). Uniaxial strain ratcheting behavior of dented steel tubular: An experimental study [Article]. Engineering Failure Analysis, 44, 202-216.
Zeinoddini, M., Mo'tamedi, M., Zandi, A. P., Talebi, M., Shariati, M., & Ezzati, M. (2017). On the ratcheting of defective low-alloy, high-strength steel pipes (API-5L X80) under cyclic bending: An experimental study. International Journal of Mechanical Sciences, 130, 518-533.
Zeinoddini, M., Mo’tamedi, M., Asil Gharebaghi, S., & Parke, G. A. R. (2016). On the ratcheting response of circular steel pipes subject to cyclic inelastic bending: A closed-form analytical solution. International Journal of Mechanical Sciences, 117, 243-257.
Abdel-Karim, M., & Ohno, N. (2000). Kinematic hardening model suitable for ratchetting with steady-state. International journal of plasticity, 16(3-4), 225-240.
Armstrong, P. J., & Frederick, C. O. (1966). A mathematical representation of the multiaxial Bauschinger effect (Vol. 731). Berkeley, CA: Berkeley Nuclear Laboratories.
Azadeh, M., & Taheri, F. (2016). On the response of dented stainless-steel pipes subject to cyclic bending moments and its prediction. Thin-Walled Structures, 99, 12-20.
Bari, S., & Hassan, T. (2002). An advancement in cyclic plasticity modeling for multiaxial ratcheting simulation. International journal of plasticity, 18(7), 873-894.
Chaboche, J.-L. (1986). Time-independent constitutive theories for cyclic plasticity. International journal of plasticity, 2(2), 149-188.
Chaboche, J.-L. (1991). On some modifications of kinematic hardening to improve the description of ratchetting effects. International journal of plasticity, 7(7), 661-678.
Hassan, T., Rahman, M., & Bari, S. (2015). Low-Cycle Fatigue and Ratcheting Responses of Elbow Piping Components. Journal of Pressure Vessel Technology, 137(3).
Islam, N., & Hassan, T. (2019). Development of a novel constitutive model for improved structural integrity analysis of piping components. International Journal of Pressure Vessels and Piping, 177.
İşler, M. (2018). Analysis of ratcheting by using different yield criteria and kinematic hardening models for uniaxial and biaxial loading [Master Thesis, Middle East Technical University]. Jiang, Y., & Sehitoglu, H. (1996a). Modeling of cyclic ratchetting plasticity, part I: development of constitutive relations.
Jiang, Y., & Sehitoglu, H. (1996b). Modeling of cyclic ratchetting plasticity, part II: comparison of model simulations with experiments.
Kyriakides, S., & Shaw, P. K. (1987). Inelastic Buckling of Tubes Under Cyclic Bending. Journal of Pressure Vessel Technology, 109(2), 169-178.
Lu, X. (2003). Influence of Residual Stress on Fatigue Failure of Welded Joints North Carolina State University].
Macedo, J., Chapuliot, S., Bergheau, J.-M., Feulvarch, E., Ancelet, O., & Martin, A. (2020). A Historical Overview of Design Analyses and Experimental Observations of Ratcheting Phenomenon. ASME 2020 Pressure Vessels & Piping Conference,
McDowell, D. (1995). Stress state dependence of cyclic ratchetting behavior of two rail steels. International journal of plasticity, 11(4), 397-421.
Moslemi, N., Gol Zardian, M., Ayob, A., Redzuan, N., & Rhee, S. (2019). Evaluation of Sensitivity and Calibration of the Chaboche Kinematic Hardening Model Parameters for Numerical Ratcheting Simulation. Applied Sciences, 9(12), 2578.
Ohno, N., & Wang, J.-D. (1993). Kinematic hardening rules with critical state of dynamic recovery, part I: formulation and basic features for ratchetting behavior. International journal of plasticity, 9(3), 375-390.
Rahmatfam, A., Zehsaz, M., & Chakherlou, T. N. (2019). Ratcheting assessment of pressurized pipelines under cyclic axial loading: Experimental and numerical investigations. International Journal of Pressure Vessels and Piping, 176, Article 103970.
Rudland, D., Brust, F., & Wilkowski, G. (1996). The effects of cyclic and dynamic loading on the fracture resistance of nuclear piping steels. Technical report, October 1992--April 1996.
The MathWorks, I. (2020). Curve Fitting Toolbox. In https://www.mathworks.com/products/curvefitting.html
Zakavi, S., Zehsaz, M., & Eslami, M. (2010). The ratchetting behavior of pressurized plain pipework subjected to cyclic bending moment with the combined hardening model. Nuclear Engineering and Design, 240(4), 726-737.
Zeinoddini, M., Ezzati, M., & Fakheri, J. (2014). Uniaxial strain ratcheting behavior of dented steel tubular: An experimental study [Article]. Engineering Failure Analysis, 44, 202-216.
Zeinoddini, M., Mo'tamedi, M., Zandi, A. P., Talebi, M., Shariati, M., & Ezzati, M. (2017). On the ratcheting of defective low-alloy, high-strength steel pipes (API-5L X80) under cyclic bending: An experimental study. International Journal of Mechanical Sciences, 130, 518-533.
Zeinoddini, M., Mo’tamedi, M., Asil Gharebaghi, S., & Parke, G. A. R. (2016). On the ratcheting response of circular steel pipes subject to cyclic inelastic bending: A closed-form analytical solution. International Journal of Mechanical Sciences, 117, 243-257.