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Materials Science and Technology Volume 9, 1993 - Issue 10
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Articles

Grain control in mechanically alloyed oxide dispersion strengthened MA 957 steel

T. S. Chou
&
H. K. D. H. Bhadeshia
Pages 890-898 | Published online: 18 Jul 2013

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WT Han, FR Wan, B Leng, S Ukai, QX Tang, S Hayashi, J C He & Y Sugino. (2011) Grain characteristic and texture evolution in friction stir welds of nanostructured oxide dispersion strengthened ferritic steel. Science and Technology of Welding and Joining 16:8, pages 690-696.
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C. Capdevila, Y.L. Chen, N.C.K. Lassen, A.R. Jones & H.K.D.H. Bhadeshia. (2001) Heterogeneous deformation and recrystallisation of iron base oxide dispersion strengthened PM2000 alloy. Materials Science and Technology 17:6, pages 693-699.
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H.K.D.H. Bhadeshia. (2000) Mechanically alloyed metals. Materials Science and Technology 16:11-12, pages 1404-1411.
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T. S. Chou & H. K. D. H. Bhadeshia. (1995) Dynamic recrystallisation in hot deformed oxide dispersion strengthened MA956 and MA957 steels. Materials Science and Technology 11:11, pages 1129-1138.
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Articles from other publishers (37)

Pradyumna Kumar Parida, Arup Dasgupta & Shyam Kanta Sinha. (2021) Comparison of Microstructure and Microtexture Evolution in 9Cr and 18Cr Oxide Dispersion-Strengthened Steels during Fuel Clad Tube Fabrication. Journal of Materials Engineering and Performance 30:12, pages 9227-9236.
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Zachary Huber, K. Marie McCoy, Matthew Athon, Ian Schwerdt & Curt Lavender. (2021) Effects of casting parameters and impurity concentrations on as-cast U–10Mo. Progress in Nuclear Energy 140, pages 103921.
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Rosalia Rementeria, Carlos Capdevila & Francisca G. Caballero. 2021. High-Performance Ferrous Alloys. High-Performance Ferrous Alloys 327 387 .
Manmath Kumar Dash, Haraprasanna Tripathy, S. Saroja & R. Mythili. (2020) Evaluation of deformation and recrystallization behavior in oxide dispersion strengthened 18Cr ferritic steel. International Journal of Pressure Vessels and Piping 185, pages 104130.
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Takashi HosodaKester D. Clarke, Stuart A. Maloy, John G. Speer & Kip O. Findley. (2020) Microstructure Development with Thermomechanical Processing in Alloy MA956. ISIJ International 60:3, pages 546-555.
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Manmath Kumar Dash, S. Saroja, Rahul John, R. Mythili & Arup Dasgupta. (2018) EBSD Study on Processing Domain Parameters of Oxide Dispersion Strengthened 18Cr Ferritic Steel. Journal of Materials Engineering and Performance 28:1, pages 263-272.
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Carlos Capdevila, Rosalia Rementeria, Maria Aranda, Javier Vivas, Jesus Chao & Vicente Amigó. (2018) Effect of Extensive and Limited Plastic Deformation on Recrystallized Microstructure of Oxide Dispersion Strengthened Fe-Cr-Al Alloy. Metals 8:12, pages 1052.
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Y.B. Chun, X. Mao, C.H. Han & J. Jang. (2017) Microstructural evolution and tensile properties of oxide dispersion strengthened Alloy 617 at elevated temperatures. Materials Science and Engineering: A 706, pages 161-171.
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Jingjie Shen, Huilong Yang, Yanfen Li, Sho Kano, Yoshitaka Matsukawa, Yuhki Satoh & Hiroaki Abe. (2017) Microstructural stability of an as-fabricated 12Cr-ODS steel under elevated-temperature annealing. Journal of Alloys and Compounds 695, pages 1946-1955.
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Suk Hoon Kang, M. Vasudevan, Sanghoon Noh, Hyun Ju Jin, Jinsung Jang & Tae Kyu Kim. (2016) Friction stir welding of F/M ODS steel plug and F/M steel tube. Fusion Engineering and Design 109-111, pages 182-185.
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Zhenzhen Yu, Zhili Feng, David Hoelzer, Lizhen Tan & Mikhail A. Sokolov. (2015) Friction Stir Welding of ODS and RAFM Steels. Metallurgical and Materials Transactions E 2:3, pages 164-172.
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Debasis Chaira & Swapan Kumar Karak. 2015. Handbook of Mechanical Nanostructuring. Handbook of Mechanical Nanostructuring 379 416 .
Xiaosheng Zhou, Chenxi Liu, Liming Yu, Yongchang Liu & Huijun Li. (2015) Phase Transformation Behavior and Microstructural Control of High-Cr Martensitic/Ferritic Heat-resistant Steels for Power and Nuclear Plants: A Review. Journal of Materials Science & Technology 31:3, pages 235-242.
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S.Y. Zhong, J. Ribis, T. Baudin, N. Lochet, Y. de Carlan, V. Klosek & M.H. Mathon. (2014) The effect of Ti/Y ratio on the recrystallisation behaviour of Fe–14%Cr oxide dispersion-strengthened alloys. Journal of Nuclear Materials 452:1-3, pages 359-363.
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Z. Oksiuta, P. Hosemann, S.C. Vogel & N. Baluc. (2014) Microstructure examination of Fe–14Cr ODS ferritic steels produced through different processing routes. Journal of Nuclear Materials 451:1-3, pages 320-327.
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G. Pimentel, J. Chao & C. Capdevila. (2014) Recrystallization Process in Fe-Cr-Al Oxide Dispersion-Strengthened Alloy: Microstructural Evolution and Recrystallization Mechanism. JOM 66:5, pages 780-792.
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Dong-Woo Ko & Hee-Bok Choi. (2012) Hydration Analysis of Fine Particle and Old Mortar Attached on the Surface of Recycled Aggregate. Journal of the Korea Institute of Building Construction 12:5, pages 460-467.
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G. Pimentel, C. Capdevila, M. J. Bartolomé, J. Chao, M. Serrano, A. García-Junceda, M. Campos, J. M. Torralba & J. Aldazábal. (2012) Advanced FeCrAl ODS steels for high-temperature structural applications in energy generation systems. Revista de Metalurgia 48:4, pages 303-316.
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G. Pimentel, I. Toda-Caraballo, J. Chao & C. Capdevila. (2012) Role of strain heterogeneity on recrystallisation of oxide dispersion strengthened Fe–Cr–Al alloys for high-temperature applications. Journal of Materials Science 47:14, pages 5605-5616.
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Chun-Liang Chen, You-Ming Dong & Shu-Mei Fu. (2012) Strain Heterogeneity, Recovery and Recrystallization of Nanostructured ODS Alloys during Cold Deformation. MATERIALS TRANSACTIONS 53:10, pages 1795-1800.
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C.-L. Chen, G.J. Tatlock & A.R. Jones. (2010) Microstructural evolution in friction stir welding of nanostructured ODS alloys. Journal of Alloys and Compounds 504, pages S460-S466.
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Chun Liang Chen, G.J. Tatlock & Andy R. Jones. (2010) Effect of Strain Heterogeneity on the Recrystallization Behavior of an Oxide Dispersion Strengthened Ferritic Alloy. Materials Science Forum 638-642, pages 3833-3838.
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C.-L. CHEN, G. J. TATLOCK & A.R. JONES. (2009) Effect of annealing temperatures on the secondary re-crystallization of extruded PM2000 steel bar. Journal of Microscopy 233:3, pages 474-481.
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B. Wilshire & H. Burt. (2008) Damage evolution during creep of steels. International Journal of Pressure Vessels and Piping 85:1-2, pages 47-54.
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J.L. González-Carrasco, J. Chao, C. Capdevila, J.A. Jiménez, V. Amigó & M.D. Salvador. (2007) Assessment of factors influencing surface recrystallisation during high temperature exposure of fine-grained PM 2000 alloy. Materials Science and Engineering: A 471:1-2, pages 120-124.
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H.R.Z. Sandim, A.O.F. Hayama & D. Raabe. (2006) Recrystallization of the ODS superalloy PM-1000. Materials Science and Engineering: A 430:1-2, pages 172-178.
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B WILSHIRE & T LIEU. (2004) Deformation and damage processes during creep of Incoloy MA957. Materials Science and Engineering A 386:1-2, pages 81-90.
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T Grosdidier, E Suzon & F Wagner. (2004) Primary recrystallization in an ODS FeAl alloy: an effective way to modify texture and microstructure. Intermetallics 12:6, pages 645-654.
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A.O.F Hayama, H.R.Z Sandim, J.F.C Lins, M.F Hupalo & A.F Padilha. (2004) Annealing behavior of the ODS nickel-based superalloy PM 1000. Materials Science and Engineering: A 371:1-2, pages 198-209.
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Xiaoyan Song & Markus Rettenmayr. (2003) Study on the effects of a deformation gradient on recrystallization in a material containing precipitates. Scripta Materialia 48:8, pages 1123-1128.
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C. Capdevila, U. Miller, H. Jelenak & H.K.D.H. Bhadeshia. (2001) Strain heterogeneity and the production of coarse grains in mechanically alloyed iron-based PM2000 alloy. Materials Science and Engineering: A 316:1-2, pages 161-165.
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W. Sha, E.A. O'Neill & Z. Guo. (1999) Differential scanning calorimetry study of ordinary Portland cement. Cement and Concrete Research 29:9, pages 1487-1489.
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L. Lü & M. O. LaiL. Lü & M. O. Lai. 1998. Mechanical Alloying. Mechanical Alloying 189 201 .
H.K.D.H. Bhadeshia. (1997) Recrystallisation of practical mechanically alloyed iron-base and nickel-base superalloys. Materials Science and Engineering: A 223:1-2, pages 64-77.
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W. Sha & H.K.D.H. Bhadeshia. (1997) Modelling of recrystallisation in mechanically alloyed materials. Materials Science and Engineering: A 223:1-2, pages 91-98.
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T.S. Chou. (1997) Recrystallisation behaviour and grain structure in mechanically alloyed oxide dispersion strengthened MA956 steel. Materials Science and Engineering: A 223:1-2, pages 78-90.
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T.S. Chou & H.K.D.H. Bhadeshia. (1994) Recrystallization temperatures in mechanically alloyed oxide-dispersion-strengthened MA956 and MA957 steels. Materials Science and Engineering: A 189:1-2, pages 229-233.
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