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Energy Materials
Materials Science and Engineering for Energy Systems
Volume 12, 2017 - Issue 1: Themed Issue on High Temperature Deformation
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Original Research Paper

Creep ductility considerations for high energy components manufactured from creep strength enhanced steels

Jonathan ParkerElectric Power Research Institute (EPRI), Charlotte, NC, 28262,USACorrespondence[email protected]
Pages 109-120 | Received 19 Aug 2016, Accepted 28 Nov 2016, Published online: 27 Dec 2016

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Read on this site (1)

R. P. Skelton. (2021) Ductility coaxing during creep and tensile deformation of high temperature alloys. Materials at High Temperatures 38:6, pages 426-451.
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Articles from other publishers (7)

Nasrul Azuan Alang, Lei Zhao & Kamran Nikbin. (2021) Evaluation of Monkman–Grant strain as a key parameter in ductility exhaustion damage model to predict creep rupture of grade 92 steel. The Journal of Strain Analysis for Engineering Design 57:5, pages 392-408.
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Raheeg Ragab, Jonathan Parker, Ming Li, Tao Liu, Andy Morris & Wei Sun. (2022) Requirements for and challenges in developing improved creep ductility-based constitutive models for tempered martensitic CSEF steels. Journal of Materials Research and Technology 17, pages 3337-3360.
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Raheeg Ragab, Jonathan Parker, Ming Li, Tao Liu & Wei Sun. (2022) Creep crack growth modelling of Grade 91 vessel weldments using a modified ductility based damage model. European Journal of Mechanics - A/Solids 91, pages 104424.
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Vanno Lok, Thi Giang Le, Jong Min Yu, Young Wha Ma, Vinh Phu Nguyen, Seung Tae Choi & Kee Bong Yoon. (2020) Changes in creep property and precipitates due to aging of T91 steel after long-term service. Journal of Mechanical Science and Technology 34:8, pages 3283-3293.
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Javier Vivas, Carlos Capdevila, Eberhard Altstadt, Mario Houska, Ilchat Sabirov & David San-Martín. (2018) Microstructural Degradation and Creep Fracture Behavior of Conventionally and Thermomechanically Treated 9% Chromium Heat Resistant Steel. Metals and Materials International 25:2, pages 343-352.
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J. Corcoran & C.M. Davies. (2018) Monitoring power-law creep using the Failure Forecast Method. International Journal of Mechanical Sciences 140, pages 179-188.
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N.A. Alang & K. Nikbin. (2018) An analytical and numerical approach to multiscale ductility constraint based model to predict uniaxial/multiaxial creep rupture and cracking rates. International Journal of Mechanical Sciences 135, pages 342-352.
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