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Canadian Metallurgical Quarterly
The Canadian Journal of Metallurgy and Materials Science
Volume 18, 1979 - Issue 1
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Articles

Creep-Fatigue Interactions in an Austenitic Stainless Steel

S. Majumdar
&
P. S. Maiya
Pages 57-64 | Published online: 18 Jul 2013

Citations (21)

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G. J. Lloyd & J. Wareing. (1981) Life-prediction methods for combined creep–fatigue endurance. Metals Technology 8:1, pages 297-305.
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Articles from other publishers (20)

Jin Yan, Suyang Yu, Rengen Ding, Hangyue Li, Afsaneh Rabiei & Paul Bowen. (2023) Dwell-fatigue crack growth behaviour of Alloy 709. Acta Materialia 249, pages 118808.
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Jin-Jie Wang, De-Guang Shang, Yu-Juan Sun, Luo-Jin Li & Dao-Hang Li. (2019) Thermo-mechanical fatigue life prediction method under multiaxial variable amplitude loading. International Journal of Fatigue 127, pages 382-394.
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Meimei Li, S. Majumdar, K. Natesan, A. Saxena, B. Dogan & S. W. Dean. (2011) Modeling Creep-Fatigue Behavior of Mod.9Cr-1Mo Steel. Journal of ASTM International 8:9, pages 103824.
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Kuk-cheol Kim, Byeong-ook Kong, Min-soo Kim & Sung-tae Kang. 2010. Fatigue of Materials. Fatigue of Materials 217 229 .
S.S. Manson & G.R. Halford. 2009. Fatigue and Durability of Metals at High Temperatures. Fatigue and Durability of Metals at High Temperatures 173 221 .
Chang Yeol Jeong, Jung-Chan Bae, Chang-Seog Kang, Jae-Ik Cho & Hyeon-Taek Son. (2007) Normalized creep–fatigue life prediction model based on the energy dissipation during hold time. Materials Science and Engineering: A 460-461, pages 195-203.
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Baig Gyu Choi, Soo Woo Nam, Young Cheol Yoon & Joong Jae Kim. (1996) Characterization of the cavity nucleation factor for life prediction under creep-fatigue interaction. Journal of Materials Science 31:18, pages 4957-4966.
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W. J. Plumbridge. (1996) Solders in electronics. Journal of Materials Science 31:10, pages 2501-2514.
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P Rodriguez & S L Mannan. (1995) High temperature low cycle fatigue. Sadhana 20:1, pages 123-164.
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P. Rodriguez & K. Bhanu Sankara Rao. (1993) Nucleation and growth of cracks and cavities under creep-fatigue interaction. Progress in Materials Science 37:5, pages 403-480.
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R.J. DiMelfi. (1992) On the transition to intergranular fracture during high temperature deformation. Materials Science and Engineering: A 158:1, pages 53-63.
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D. M. Elzey & E. Arzt. (1991) Crack initiation and propagation during high-temperature fatigue of oxide dispersion-strengthened superalloys. Metallurgical Transactions A 22:4, pages 837-851.
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R. Viswanathan. 1989. Damage Mechanisms and Life Assessment of High-Temperature Components. Damage Mechanisms and Life Assessment of High-Temperature Components 111 182 .
Soo woo Nam, Jin Wan hong & Kyong-tschong Rie. (1988) Creep-fatigue life prediction in terms of nucleation and growth of fatigue crack and creep cavities. Metallurgical Transactions A 19:1, pages 121-127.
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K.-T. Rie & R.-M. Schmidt. 1987. Low Cycle Fatigue and Elasto-Plastic Behaviour of Materials. Low Cycle Fatigue and Elasto-Plastic Behaviour of Materials 223 228 .
D. A. Miller & R. H. Priest. 1987. High Temperature Fatigue. High Temperature Fatigue 113 175 .
Jin Wan Hong, Soo Woo Nam & Kyong-Tschong Rie. (1985) A model for life prediction in low-cycle fatigue with hold time. Journal of Materials Science 20:10, pages 3763-3770.
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In Sik Choi, Soo Woo Nam & Kyong-Tschong Rie. (1985) Mechanism of the fatigue life increment due to dynamic strain ageing during hold time. Journal of Materials Science 20:7, pages 2446-2458.
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S. Baik & R. Raj. (1982) Wedge type creep damage in low cycle fatigue. Metallurgical Transactions A 13:7, pages 1207-1214.
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C. Gandhi & R. Raj. (1981) An upper bound on strain rate for wedge type fracture in nickel during creep. Metallurgical Transactions A 12:3, pages 515-520.
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