PSI - Issue 57

Rando Tungga Dewa et al. / Procedia Structural Integrity 57 (2024) 762–771 Dewa et al./ Structural Integrity Procedia 00 (2019) 000 – 000

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Ekaputra, I.M.W., Kim, W.-G., Park, J.-Y., Kim, S.-J., Kim, E.-S., 2016. Influence of dynamic strain aging on tensile deformation behavior of alloy 617. Nuclear Engineering and Technology 48, 1387 – 1395. Rao, K.B., Schiffers, H., Schuster, H., Nickel, H., 1988. Influence of time and temperature dependent processes on strain controlled low cycle fatigue behavior of alloy 617. Metallurgical Transactions A 19, 359 – 371. Luo, Y.-rong, Huang, C.-xiang, Tian, R.-hui, Wang, Q.-yuan, 2013. Effects of strain rate on low cycle fatigue behaviors of high-strength structural steel. Journal of Iron and Steel Research International 20, 50 – 56. Kim, D.J., Nam, S.W., 1988. Strain-rate effect on high temperature low-cycle fatigue deformation of Aisi 304L stainless steel. Journal of Materials Science 23, 1024 – 1029. Calmunger, M., Chai, G.C., Johansson, S., Moverare, J., 2013. Damage and fracture behaviours in aged austenitic materials during high temperature slow strain rate testing. Key Engineering Materials 592-593, 590 – 593. Chen, Y., Sun, W., Chan, T.-M., 2014. Cyclic stress-strain behavior of structural steel with yield strength up to 460 N/mm2. Frontiers of Structural and Civil Engineering 8, 178 – 186. NAKAI, K., YOKOYAMA, T., 2012. High strain-rate compressive properties and constitutive modeling of selected polymers. Journal of Solid Mechanics and Materials Engineering 6, 731 – 741. Chou, L.H., Chiou, Y.C., Wu, C.C., Huang, Y.J. 2016. Predictions of stress-strain curve and fatigue life for AISI 316 stainless steel in cyclic straining. Journal of Marine Science and Technology 24(3), 426-433. Ekaputra, I.M.W., Dewa, R.T., Haryadi, G.D., Kim, S.J., 2020. Fatigue strength analysis of S34MNV steel by accelerated staircase test. Open Engineering 10, 394 – 400.

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