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Materials Science and Technology Volume 31, 2015 - Issue 5: Cavitation in materials: new insights from 2D/3D/4D characterisation
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Research Papers

Characterisation and quantification of cavities in 9Cr martensitic steel for power plants

S. D. YadavInstitute for Materials Science and Welding, Graz University of Technology, Kopernikusgasse 24, A-8010Graz, AustriaCorrespondence[email protected]
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B. SondereggerCentre for Materials Engineering, Department of Mechanical Engineering, University of Cape Town, Cape Town, South Africa
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B. SartoryMaterials Center Leoben Forschung GmbH (MCL), Roseggerstraße 12, A-8700Leoben, Austria
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C. SommitschInstitute for Materials Science and Welding, Graz University of Technology, Kopernikusgasse 24, A-8010Graz, Austria
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C. PolettiInstitute for Materials Science and Welding, Graz University of Technology, Kopernikusgasse 24, A-8010Graz, Austria
Pages 554-564 | Received 14 Feb 2014, Accepted 29 Jul 2014, Published online: 12 Aug 2014

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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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Surya D. Yadav, P. Vasantharaja, Florian Riedlsperger, S. Nagaraju & M. Vasudevan. (2019) Zone-wise investigation of creep behaviour 9Cr–1Mo steel weld joints. Materials Science and Technology 35:2, pages 155-172.
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C. Gupta, H. Toda, P. Mayr & C. Sommitsch. (2015) Cavitation studies in materials: new insights from modern techniques in 2D/3D/4D characterisation. Materials Science and Technology 31:5, pages 513-515.
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Articles from other publishers (20)

P. Vaishali & Vani Shankar. (2023) Effect of cyclic waveforms on cavitation propensity of P91 steel weld joint at 873 K. Journal of Materials Science 58:40, pages 15901-15916.
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Maria Inês Silva, Evgenii Malitckii, Telmo G. Santos & Pedro Vilaça. (2023) Review of conventional and advanced non-destructive testing techniques for detection and characterization of small-scale defects. Progress in Materials Science 138, pages 101155.
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Mbombo Amejima Okpa, Qiang Xu & Zhongyu Lu. 2023. Creep in Structures VI. Creep in Structures VI 249 264 .
L. Coghlan, Aya Shin, Jonathan Pearson, Mark. A. E. Jepson & R. L. Higginson. (2022) Using a plasma FIB system to characterise the porosity through the oxide scale formed on 9Cr-1Mo steel exposed to CO2. Journal of Materials Science 57:37, pages 17849-17869.
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Pankhuri Mehrotra, Nilesh Kumar, Alphy George, Kanhu Charan Sahoo, Vaidyanathan Ganesan, Mohammad Reza Ahmadi, Shivam Trivedi & Surya D. Yadav. (2022) An advanced mean field dislocation density reliant physical model to predict the creep deformation of 304HCu austenitic stainless steel. Materials Today Communications 32, pages 104128.
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A. Tonti, C. Delle Site & L. Campanile. (2022) New Italian standard for the creep assessment of martensitic steels. Strength, Fracture and Complexity 15:1, pages 59-77.
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Felix Meixner, Mohammad Reza Ahmadi & Christof Sommitsch. (2022) Modeling and Simulation of Pore Formation in a Bainitic Steel During Creep. Metallurgical and Materials Transactions A 53:3, pages 984-999.
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Melody van Rooyen, Alexander N. Forsey, Salih Gungor & Thorsten H. Becker. (2021) Creep deformation measurement of ex‐service 12% Cr steel over nonuniform stress fields using digital image correlation. Strain 58:1.
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Zhidong Fan, Qingwu Wang, Kun Niu, Jingjing Jia, Zhibo Zhang, An Xu, Yichao Ma, Yingjie Zhan, Chengxin Liu & Hongnian Dong. (2021) Water Wall Tube Cracking in an Ultra-Supercritical Boiler Caused by Deep Peaking. Transactions of the Indian Institute of Metals 75:1, pages 183-191.
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Karen KruskaZiqing ZhaiDaniel K. SchreiberStephen M. Bruemmer. (2019) Characterization of Stress Corrosion Cracking Initiation Precursors in Cold-Worked Alloy 690 Using Advanced High-Resolution Microscopy. CORROSION 75:7, pages 727-736.
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Jin-bo Gu, Hua-qing Liu, Jing-yuan Li, Yan-bin Jiang & Rui-jin Chang. (2018) Effect of nitrogen on microstructure and secondary hardening of H21 die steel. Journal of Iron and Steel Research International 26:5, pages 483-489.
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S.D. Yadav, T. Scherer, G.V. Prasad Reddy, K. Laha, G. Sasikala, S.K. Albert & C. Poletti. (2018) Creep modelling of P91 steel employing a microstructural based hybrid concept. Engineering Fracture Mechanics 200, pages 104-114.
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Jian-Feng Wen, Yu Liu, Ankit Srivastava, Ahmed Amine Benzerga, Shan-Tung Tu & Alan Needleman. (2018) Environmentally enhanced creep crack growth by grain boundary cavitation under cyclic loading. Acta Materialia 153, pages 136-146.
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R.S. Vidyarthy & D.K. Dwivedi. (2018) A comparative study on creep behavior of AISI 409 ferritic stainless steel in as-received and as-welded condition (A-TIG and M-TIG). Materials Today: Proceedings 5:9, pages 17097-17106.
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Surya Deo Yadav, Moustafa El-Tahawy, Szilvia Kalácska, Mária Dománková, David Canelo Yubero & Cecilia Poletti. (2017) Characterizing dislocation configurations and their evolution during creep of a new 12% Cr steel. Materials Characterization 134, pages 387-397.
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S.D. Yadav, U. Jäntsch, T. Scherer, M.R. Ahmadi, J. Rosc & C. Poletti. (2017) Investigation of creep cavities in a novel 12Cr0.36Ta steel employing three-dimensional electron backscatter diffraction technique. Materials Letters 207, pages 76-79.
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Surya Deo Yadav, Szilvia Kalácska, Mária Dománková, David Canelo Yubero, Roland Resel, István Groma, Coline Beal, Bernhard Sonderegger, Christof Sommitsch & Cecilia Poletti. (2016) Evolution of the substructure of a novel 12% Cr steel under creep conditions. Materials Characterization 115, pages 23-31.
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Surya Deo Yadav, Bernhard Sonderegger, Muhammad Stracey & Cecilia Poletti. (2016) Modelling the creep behaviour of tempered martensitic steel based on a hybrid approach. Materials Science and Engineering: A 662, pages 330-341.
Crossref
Xin Yang, Zhongyu Lu & Qiang Xu. (2015) The interpretation of experimental observation date for the development of mechanisms based creep damage constitutive equations for high chromium steel. The interpretation of experimental observation date for the development of mechanisms based creep damage constitutive equations for high chromium steel.
V. Sklenička, K. Kuchařová, P. Král, M. Kvapilová, M. Svobodová & J. Čmakal. (2015) The effect of hot bending and thermal ageing on creep and microstructure evolution in thick-walled P92 steel pipe. Materials Science and Engineering: A 644, pages 297-309.
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