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Philosophical Magazine A Volume 79, 1999 - Issue 9
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Original Articles

Vacancy loops and stacking-fault tetrahedra in copper

II. Growth, shrinkage, interactions with point defects and thermal stability

Yu. N. Osetsky Materials Science and Engineering, Department of Engineering, The University of Liverpool, Brownlow Hill, Liverpool, L69 3GH, England
,
A. Serra Departamento de Matematica Aplicada III, Universitat Politecnica de Catalunya, Jordi Girona 1–3, C-2, E-08034, Barcelona, Spain
,
M. Victoria CRPP-Fusion Technology Division, Ecole Polytechnique Fédérale de Lausanne, CH-5232, Villigen PSI, Switzerland
,
S. I. Golubov State Scientific Centre of Russian Federation, Institute of Physics and Power Engineering, Bondarenko Square 1, 249020 Obninsk, Kaluga Region, Russia
&
V. Priego Departamento de Matematica Aplicada III, Universitat Politecnica de Catalunya, Jordi Girona 1–3, C-2, E-08034, Barcelona, Spain
Pages 2285-2311 | Received 11 Dec 1997, Accepted 09 Nov 1998, Published online: 01 Apr 2008

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Wenpeng Zhu & Wei Yang. (2011) Molecular dynamics study of configuration and stability of vacancy clusters in fcc Ag. Philosophical Magazine 91:29, pages 3793-3809.
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R. Schäublin , Z. Yao, N. Baluc & M. Victoria. (2005) Irradiation-induced stacking fault tetrahedra in fcc metals. Philosophical Magazine 85:4-7, pages 769-777.
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D. J. Bacon & Yu. N. Osetsky. (2002) Modelling atomic scale radiation damage processes and effects in metals. International Materials Reviews 47:5, pages 233-241.
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Yu.N. Osetsky, A. Serra, M. Victoria, S.I. Golubov & V. Priego. (1999) Vacancy loops and stacking-fault tetrahedra in copper. Philosophical Magazine A 79:9, pages 2259-2283.
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Articles from other publishers (22)

Cuncai Fan, Zhongxia Shang, Meimei Li, Haiyan Wang, Anter El-Azab & Xinghang Zhang. (2022) The influence of helium and heavy ion irradiations on radiation responses of single crystal Cu with nanovoids: An in situ TEM study. Acta Materialia 240, pages 118293.
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Donghua Xu, Zhengming Wang, Tzu-Yi Chang, Jaskaran S Saini, Wei-Ying Chen, Meimei Li & Yuanyuan Zhu. (2022) Direct transformation of equilateral hexagonal Frank vacancy loops to stacking fault tetrahedra under thermal fluctuation. Journal of Physics: Condensed Matter 34:38, pages 385702.
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Steven J. Zinkle. 2020. Comprehensive Nuclear Materials. Comprehensive Nuclear Materials 91 129 .
Debasis Poddar, Arnab Chakraborty & Ravi Kumar B.. (2019) Annealing twin evolution in the grain-growth stagnant austenitic stainless steel microstructure. Materials Characterization 155, pages 109791.
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Debasis Poddar, Chiradeep Ghosh, Basudev Bhattacharya & Vivek Kumar Singh. (2019) Development of high ductile ultra high strength structural steel through stabilization of retained austenite and stacking fault. Materials Science and Engineering: A 762, pages 138079.
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C. Fan, A.R.G. Sreekar, Z. Shang, Jin Li, M. Li, H. Wang, A. El-Azab & X. Zhang. (2019) Radiation induced nanovoid shrinkage in Cu at room temperature: An in situ study. Scripta Materialia 166, pages 112-116.
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Bennett C. Larson. (2019) Historical Perspective on Diffraction Line-Profile Analyses for Crystals Containing Defect Clusters. Crystals 9:5, pages 257.
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FengChao Wu, YinBo Zhu, Qiang Wu, XinZhu Li, Pei Wang & HengAn Wu. (2017) Helium bubbles aggravated defects production in self-irradiated copper. Journal of Nuclear Materials 496, pages 265-273.
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FengChao Wu, Pei Wang, XiaoYi Liu & HengAn Wu. (2017) Radiation damage in gallium-stabilized δ-plutonium with helium bubbles. Journal of Nuclear Materials 484, pages 7-15.
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GARY S. WASGary S. Was. 2017. Fundamentals of Radiation Materials Science. Fundamentals of Radiation Materials Science 301 378 .
Dilpuneet S. Aidhy, Chenyang Lu, Ke Jin, Hongbin Bei, Yanwen Zhang, Lumin Wang & William J. Weber. (2016) Formation and growth of stacking fault tetrahedra in Ni via vacancy aggregation mechanism. Scripta Materialia 114, pages 137-141.
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A.P. Druzhkov, V.L. Arbuzov & D.A. Perminov. (2012) The effect of neutron irradiation dose on vacancy defect accumulation and annealing in pure nickel. Journal of Nuclear Materials 421:1-3, pages 58-63.
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S.J. Zinkle. 2012. Comprehensive Nuclear Materials. Comprehensive Nuclear Materials 65 98 .
C. S. Becquart & C. Domain. (2010) Modeling Microstructure and Irradiation Effects. Metallurgical and Materials Transactions A 42:4, pages 852-870.
Crossref
D.J. Bacon, Y.N. Osetsky & D. Rodney. 2009. 1 90 .
S. Van Petegem, J. Kuriplach, P. M. Derlet & H. Van Swygenhoven. (2007) Positron lifetime calculations for stacking fault tetrahedra in copper. physica status solidi c 4:10, pages 3514-3517.
Crossref
. 2007. Fundamentals of Radiation Materials Science. Fundamentals of Radiation Materials Science 267 342 .
C Pokor, Y Brechet, P Dubuisson, J.-P Massoud & A Barbu. (2004) Irradiation damage in 304 and 316 stainless steels: experimental investigation and modeling. Part I: Evolution of the microstructure. Journal of Nuclear Materials 326:1, pages 19-29.
Crossref
D.J Bacon, Yu.N Osetsky, R Stoller & R.E Voskoboinikov. (2003) MD description of damage production in displacement cascades in copper and α-iron. Journal of Nuclear Materials 323:2-3, pages 152-162.
Crossref
S.J. Zinkle, N. Hashimoto, Y. Matsukawa, R.E. Stoller & Yu.N. Osetsky. (2011) Microstructures Of Irradiated And Mechanically Deformed Metals And Alloys: Fundamental Aspects. MRS Proceedings 792.
Crossref
L.Z. Sun, N.M. Ghoniem & Z.Q. Wang. (2001) Analytical and numerical determination of the elastic interaction energy between glissile dislocations and stacking fault tetrahedra in FCC metals. Materials Science and Engineering: A 309-310, pages 178-183.
Crossref
Y Shimomura & I Mukouda. (2000) Development of vacancy clusters in neutron-irradiated copper at high temperature. Journal of Nuclear Materials 283-287, pages 249-254.
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