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Energy Materials
Materials Science and Engineering for Energy Systems
Volume 13, 2018 - Issue 2
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HIDA 7: Life/Defect Assessment and Failures in High Temperature Power Plant

On the development of creep damage constitutive equations: a modified hyperbolic sine law for minimum creep strain rate and stress and creep fracture criteria based on cavity area fraction along grain boundaries

Qiang XuSchool of Computing and Engineering, Huddersfield University, Huddersfield, UKCorrespondence[email protected]
ORCID Iconhttp://orcid.org/0000-0002-5903-9781
ORCID Icon,
Xin YangSchool of Computing and Engineering, Huddersfield University, Huddersfield, UK
&
Zhongyu LuSchool of Computing and Engineering, Huddersfield University, Huddersfield, UKORCID Iconhttp://orcid.org/0000-0002-0585-2806
ORCID Icon
Pages 323-332 | Received 16 Jun 2017, Accepted 03 Oct 2017, Published online: 17 Nov 2017

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Read on this site (11)

Vito Cedro, Jacob Pellicotte & Mark Render. (2022) Application of a modified hyperbolic sine creep rate equation to correlate uniaxial creep data vs. stress and temperature for creep resistant low chrome steel alloys. Materials at High Temperatures 39:4, pages 262-277.
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Wandong Hou, Xinbao Liu, Ping Fan, Lin Zhu, Kai Zhang, Kai Wang & Lin Wang. (2022) High-temperature creep life prediction of 9%Cr steel based on creep cavitation modelling. Materials at High Temperatures 39:2, pages 122-132.
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Rami Pohja, Pertti Auerkari & Pedro Vilaça. (2022) Modelling for Creep Cavitation Damage and Life of Three Metallic Materials. Materials at High Temperatures 39:1, pages 86-96.
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Kostas Davanas. (2021) EXTRAPOLATION OF SHORT TERM CREEP DATA INTO LONG TERM RUPTURE TIME PREDICTIONS VIA CAVITY NUCLEATION MEASUREMENTS. Materials at High Temperatures 38:6, pages 475-481.
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Yuandi Wu, Shenhao Feng, Joan Lu & Qiang Xu. (2021) Investigation of the design of creep damage constitutive equations for low stress level. Materials at High Temperatures 38:5, pages 391-402.
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Shenhao Feng, Yuandi Wu, Joan Lu & Qiang Xu. (2021) Investigation of modelling the minimum creep strain rate of P91 over a wide range of stress. Materials at High Temperatures 38:5, pages 376-382.
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Xuming Zheng, Xin Yang, Zhongyu Lu & Qiang Xu. (2021) The method for the determination of creep cavitation model based on cavity histogram. Materials at High Temperatures 38:5, pages 383-390.
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Kostas Davanas. (2021) The critical role of Monkman–Grant ductility in creep cavity nucleation. Materials at High Temperatures 38:1, pages 1-6.
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Vito Cedro, Jacob Pellicotte, Omer Bakshi & Mark Render. (2020) Application of a modified hyperbolic sine creep rate equation to correlate uniaxial creep rupture data of Sanicro 25 and HR6W. Materials at High Temperatures 37:6, pages 434-444.
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Xuming Zheng, Qiang Xu, Zhongyu Lu, Xue Wang & XiQiao Feng. (2020) The development of creep damage constitutive equations for high Cr steel. Materials at High Temperatures 37:2, pages 129-138.
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Kostas Davanas. (2020) Determination of creep cavity nucleation rates. Materials at High Temperatures 37:2, pages 75-80.
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Articles from other publishers (8)

Kostas Davanas. (2022) Cavity formation entropy as resolution to creep cavity nucleation. Journal of Materials Science 57:25, pages 12084-12093.
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Sama Safarloo & Siamak Serajzadeh. (2021) Cavitation During Creep Deformation in AA7075-T76: Cellular Automata Simulation and Experiments. Metallurgical and Materials Transactions A 52:9, pages 4146-4160.
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Woosung Choi & Jihoon Han. (2021) Health-Monitoring Methodology for High-Temperature Steam Pipes of Power Plants Using Real-Time Displacement Data. Applied Sciences 11:5, pages 2256.
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Smith Salifu, Dawood Desai & Schalk Kok. (2021) Numerical simulation and creep-life prediction of X20 steam piping. Materials Today: Proceedings 38, pages 893-898.
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Smith Salifu, Dawood Desai & Schalk Kok. (2020) Prediction and Comparison of Creep Behavior of X20 Steam Plant Piping Network with Different Phenomenological Creep Models. Journal of Materials Engineering and Performance 29:11, pages 7382-7395.
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Smith Salifu, Dawood Desai & Schalk Kok. (2020) Comparative evaluation of creep response of X20 and P91 steam piping networks in operation. The International Journal of Advanced Manufacturing Technology 109:7-8, pages 1987-1996.
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Qiang Xu, Jiada Tu & Zhongyu Lu. (2019) Development of the FE In-House Procedure for Creep Damage Simulation at Grain Boundary Level. Metals 9:6, pages 656.
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Kun Chen, Yewei Xu & Shenhua Song. (2019) Effect of impurity antimony on the creep behavior of 2.25Cr-1Mo heat-resistant steel. Results in Physics 13, pages 102208.
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