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Philosophical Magazine Volume 96, 2016 - Issue 21
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Part A: Materials Science

Constitutive description of primary and steady-state creep deformation behaviour of tempered martensitic 9Cr–1Mo steel

J. ChristopherDeformation and Damage Modeling Section, Mechanical Metallurgy Division, Indira Gandhi Centre for Atomic Research, Kalpakkam, India
&
B. K. ChoudharyDeformation and Damage Modeling Section, Mechanical Metallurgy Division, Indira Gandhi Centre for Atomic Research, Kalpakkam, IndiaCorrespondence[email protected]
Pages 2256-2279 | Received 02 Mar 2016, Accepted 30 May 2016, Published online: 24 Jun 2016

Citations (12)

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Read on this site (1)

J. Christopher & B. K. Choudhary. (2018) Applicability of improved Dyson–McLean approach to creep deformation behaviour of tempered martensitic P9 steel. Materials at High Temperatures 35:4, pages 387-397.
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Articles from other publishers (11)

Vanno Lok, Thi Giang Le & Kee Bong Yoon. (2022) Creep life estimation of a service‐exposed P91 cross‐weld joint based on a primary‐secondary creep deformation model. Fatigue & Fracture of Engineering Materials & Structures 46:2, pages 654-666.
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Nilesh Kumar, Alen S. Joseph, Pankhuri Mehrotra & Surya D. Yadav. (2022) An improved dislocation density reliant model to address the creep deformation of reduced activation ferritic martensitic steel. Forces in Mechanics 9, pages 100117.
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V. Ganesan, C. Praveen, J. Christopher, G. V. Prasad Reddy & M. Vasudevan. (2021) Creep behavior of nuclear grade 316LN austenitic stainless steel at 873 K and 923 K. Mechanics of Time-Dependent Materials 26:3, pages 593-610.
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Liang Chu, Xuedong Chen, Zhichao Fan, Yu Zhou, Zhenxing Wu & Qingfeng Cui. (2021) Characterization of heterogeneous creep deformation in vanadium-modified 2.25Cr1Mo steel weldments by digital image correlation. Materials Science and Engineering: A 816, pages 141350.
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C. Praveen, J. Christopher, V. Ganesan, G.V. Prasad Reddy & Shaju K. Albert. (2021) Influence of varying nitrogen on creep deformation behaviour of 316LN austenitic stainless steel in the framework of the state-variable approach. Materials Science and Engineering: A 803, pages 140503.
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Xiazi Xiao & Long Yu. (2020) Effect of primary creep on the relationship between indentation and uniaxial creep: A theoretical model. International Journal of Solids and Structures 206, pages 114-123.
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C. Praveen, J. Christopher, V. Ganesan, G.V. Prasad Reddy, G. Sasikala & Shaju K. Albert. (2019) Constitutive modelling of transient and steady state creep behaviour of type 316LN austenitic stainless steel. Mechanics of Materials 137, pages 103122.
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Cheng Wang, Fu-Zhen Xuan & Peng Zhao. (2019) A dislocation-based constitutive model for the cyclic response of nanolath strengthened steels. International Journal of Mechanical Sciences 155, pages 475-487.
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J. Christopher & B. K. Choudhary. (2018) Modeling Creep Deformation and Damage Behavior of Tempered Martensitic Steel in the Framework of Additive Creep Rate Formulation. Journal of Pressure Vessel Technology 140:5.
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J. Christopher & B.K. Choudhary. (2018) Constitutive modelling of stress-relaxation behaviour of tempered martensitic P91 steel using sine hyperbolic rate law. Materials Chemistry and Physics 205, pages 442-451.
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J. Christopher & B. K. Choudhary. (2017) Sine Hyperbolic Models and Their Applicability Towards Creep Deformation Behaviour of 9% Chromium Steels. Transactions of the Indian Institute of Metals 70:3, pages 887-892.
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