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A note on the von Neumann-Mullins equationHUNDERI, Ola; RYUM, Nils.Scripta materialia. 2005, Vol 53, Num 6, pp 719-722, issn 1359-6462, 4 p.Article

On the possibility of DIGM-assisted abnormal grain growthBRECHET, Y. J. M; PURDY, G. R.Scripta materialia. 2006, Vol 54, Num 12, pp 2009-2011, issn 1359-6462, 3 p.Article

Self-similar evolution of network structuresRIOS, P. R; GLICKSMAN, M. E.Acta materialia. 2006, Vol 54, Num 4, pp 1041-1051, issn 1359-6454, 11 p.Article

Thermal stability of a nanostructured aluminium alloyLEWANDOWSKA, Malgorzata; KURZYDTOWSKI, Krzysztof J.Materials characterization. 2005, Vol 55, Num 4-5, pp 395-401, issn 1044-5803, 7 p.Article

Grain boundary engineering with particlesMIODOWNIK, Mark A.Scripta materialia. 2006, Vol 54, Num 6, pp 993-997, issn 1359-6462, 5 p.Article

Topological theory of abnormal grain growthRIOS, Paulo R; GLICKSMAN, Martin E.Acta materialia. 2006, Vol 54, Num 19, pp 5313-5321, issn 1359-6454, 9 p.Article

New model for low-temperature oxidation of copper single crystalFUJITA, Kensuke; ANDO, Daisuke; UCHIKOSHI, Masahito et al.Applied surface science. 2013, Vol 276, pp 347-358, issn 0169-4332, 12 p.Article

A more accurate two-dimensional grain growth algorithmLAZAR, Emanuel A; MACPHERSON, Robert D; SROLOVITZ, David J et al.Acta materialia. 2010, Vol 58, Num 2, pp 364-372, issn 1359-6454, 9 p.Article

Dynamic grain growth and particle coarsening in Al-3.5CuROFMAN, O. V; BATE, P. S.Acta materialia. 2010, Vol 58, Num 7, pp 2527-2534, issn 1359-6454, 8 p.Article

Diffusion generated motion for grain growth in two and three dimensionsELSEY, Matt; ESEDOGLU, Selim; SMEREKA, Peter et al.Journal of computational physics (Print). 2009, Vol 228, Num 21, pp 8015-8033, issn 0021-9991, 19 p.Article

Three-dimensional grain growth : Analytical approaches and computer simulationsMORA, L. A. Barrales; GOTTSTEIN, G; SHVINDLERMAN, L. S et al.Acta materialia. 2008, Vol 56, Num 20, pp 5915-5926, issn 1359-6454, 12 p.Article

On computer simulation methods to model Zener pinningHARUN, Azmir; HOLM, Elizabeth A; CLODE, Mike P et al.Acta materialia. 2006, Vol 54, Num 12, pp 3261-3273, issn 1359-6454, 13 p.Article

Grain growth in four dimensions: A comparison between simulation and experimentMCKENNA, I. M; POULSEN, S. O; LAURIDSEN, E. M et al.Acta materialia. 2014, Vol 78, pp 125-134, issn 1359-6454, 10 p.Article

Effects of Cu2S sintering aid on the formation of CuInS2 coatings from single crystal Cu2In2O5 nanoparticlesSU, Chia-Ying; MISHRA, Dillip K; CHIU, Chiu-Yen et al.Surface & coatings technology. 2013, Vol 231, pp 517-520, issn 0257-8972, 4 p.Conference Paper

Quantifying microstructures in isotropic grain growth from phase field modeling: MethodsTAO XU; SARKAR, Sanket; MOLI et al.Acta materialia. 2012, Vol 60, Num 12, pp 4787-4799, issn 1359-6454, 13 p.Article

Linear measures for polyhedral networksGLICKSMAN, Martin E; RIOS, Paulo R; LEWIS, Daniel J et al.International journal of materials research. 2009, Vol 100, Num 4, pp 536-542, issn 1862-5282, 7 p.Article

Regular N-hedra : A topological approach for analyzing three-dimensional textured polycrystalsGLICKSMAN, M. E; RIOS, P. R; LEWIS, D. J et al.Acta materialia. 2007, Vol 55, Num 12, pp 4167-4180, issn 1359-6454, 14 p.Article

Grain growth controlled by mobile particles on grain boundariesNOVIKOV, Vladimir Yu.Scripta materialia. 2006, Vol 55, Num 3, pp 243-246, issn 1359-6462, 4 p.Article

Monte Carlo simulation of grain growth in polycrystalline materialsMING HUANG, C; JOANNE, C. L; PATNAIK, B. S. V et al.Applied surface science. 2006, Vol 252, Num 11, pp 3997-4002, issn 0169-4332, 6 p.Conference Paper

Grain growth in nanocrystalline Zn-22% AlYUWEI XUN; LAVERNIA, Enrique J; MOHAMED, Farghalli A et al.Materials science & engineering. A, Structural materials : properties, microstructure and processing. 2004, Vol 371, Num 1-2, pp 135-140, issn 0921-5093, 6 p.Article

A phase-field model for grain growth with trijunction dragJOHNSON, A. E; VOORHEES, P. W.Acta materialia. 2014, Vol 67, pp 134-144, issn 1359-6454, 11 p.Article

Quantifying microstructures in isotropic grain growth from phase field modeling: Topological propertiesTAO XU; SARKAR, Sanket; MO LI et al.Acta materialia. 2013, Vol 61, Num 7, pp 2450-2459, issn 1359-6454, 10 p.Article

Schlegel description of grain form evolution in grain growthPATTERSON, Burton R; RULE, David J; DEHOFF, R. T et al.Acta materialia. 2013, Vol 61, Num 11, pp 3986-4000, issn 1359-6454, 15 p.Article

A more accurate three-dimensional grain growth algorithmLAZAR, Emanuel A; MASON, Jeremy K; MACPHERSON, Robert D et al.Acta materialia. 2011, Vol 59, Num 17, pp 6837-6847, issn 1359-6454, 11 p.Article

Polyhedral model for self-similar grain growthRIOS, P. R; GLICKSMAN, M. E.Acta materialia. 2008, Vol 56, Num 5, pp 1165-1171, issn 1359-6454, 7 p.Article

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