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Results 1 to 25 of 636

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Hall-Petch relation and boundary strengtheningHANSEN, Niels.Scripta materialia. 2004, Vol 51, Num 8, pp 801-806, issn 1359-6462, 6 p.Article

Reply to comment on: An alternate physical explanation of the hall-petch relation by Wert J. et alBATA, Vladimir; PERELOMA, Elena V.Scripta materialia. 2004, Vol 51, Num 9, pp 927-929, issn 1359-6462, 3 p.Article

Comments on: An alternative physical explanation of the Hall-Petch relationWERT, John A.Scripta materialia. 2004, Vol 50, Num 12, pp 1487-1490, issn 1359-6462, 4 p.Article

Towards a full analytic treatment of the Hall-Petch behavior in multilayers: putting the pieces togetherFRIEDMAN, Lawrence H.Scripta materialia. 2004, Vol 50, Num 6, pp 763-767, issn 1359-6462, 5 p.Article

Deformation Twinning and the Hall-Petch Relation in Commercial Purity TiSTANFORD, N; CARLSON, U; BARNETT, M. R et al.Metallurgical and materials transactions. A, Physical metallurgy and materials science. 2008, Vol 39, Num 4, pp 934-944, issn 1073-5623, 11 p.Article

A modified Hall-Petch relationship for nanocrystalline materialsLIAN, J; BAUDELET, B.Nanostructured materials. 1993, Vol 2, Num 4, pp 415-419, issn 0965-9773Article

A new way to include the grain shape in texture simulations with the Taylor model = Une façon nouvelle d'inclure la forme du grain dans les simulations de texture avec le modèle de TaylorBUNGE, H. J; WAGNER, F; WELCH, P. I et al.Journal de physique. Lettres. 1985, Vol 46, Num 23, pp L1109-L1113, issn 0302-072XArticle

The Nabarro Legacy - Perspectives for Advanced Materials in the 21st CenturySANT, S. B; MÜLLNER, P; PURDY, G. R et al.Progress in materials science. 2009, Vol 54, Num 6, issn 0079-6425, 285 p.Conference Proceedings

A simple, mixtures-based model for the grain size dependence of strength in nanophase metalsCARSLEY, J. E; NING, J; MILLIGAN, W. W et al.Nanostructured materials. 1995, Vol 5, Num 4, pp 441-448, issn 0965-9773Article

Einfluss der Korngroesse auf die Kennwerte des Zugversuchs an CuZn20Al2 = Influence of the grain size on the characteristic data of the tensile test in CuZn20Al2PYSZ, G; KRUMNACKER, M.Neue Hütte. 1985, Vol 30, Num 8, pp 300-304, issn 0028-3207Article

Influence of texture on Hall―Petch relationships in an Mg alloyYI WANG; HAHN CHOO.Acta materialia. 2014, Vol 81, pp 83-97, issn 1359-6454, 15 p.Article

Inverse Hall―Petch behavior in diamantane stabilized bulk nanocrystalline aluminumMAUNG, Khinlay; EARTHMAN, James C; MOHAMED, Farghalli A et al.Acta materialia. 2012, Vol 60, Num 16, pp 5850-5857, issn 1359-6454, 8 p.Article

Hall-petch behavior in ultra-fine-grained AISI 301 LN stainless steelRAJASEKHARA, S; FERREIRA, P. J; KARJALAINEN, L. P et al.Metallurgical and materials transactions. A, Physical metallurgy and materials science. 2007, Vol 38, Num 6, pp 1202-1210, issn 1073-5623, 9 p.Article

Nanoindentation characterization of sub-micrometric Y-TZP ceramicsGUICCIARDI, Stefano; SHIMOZONO, Takayoshi; PEZZOTTI, Giuseppe et al.Advanced engineering materials (Print). 2006, Vol 8, Num 10, pp 994-997, issn 1438-1656, 4 p.Article

Analytical and computational description of effect of grain size on yield stress of metalsFU, H.-H; BENSON, D. J; MEYERS, M. A et al.Acta materialia. 2001, Vol 49, Num 13, pp 2567-2582, issn 1359-6454Article

Hall-petch relation in nanocrystalline solidsNIEH, T. G; WADSWORTH, J.Scripta metallurgica et materialia. 1991, Vol 25, Num 4, pp 955-958Article

Geometrically necessary, incidental and subgrain boundariesKUHLMANN-WILSDORF, D; HANSEN, N.Scripta metallurgica et materialia. 1991, Vol 25, Num 7, pp 1557-1562Article

Effect of grain size on amplitude-dependent internal friction in polycrystalline copperGOTO, H; NISHINO, Y; ASANO, S et al.Nippon Kinzoku Gakkaishi (1952). 1991, Vol 55, Num 8, pp 848-852, issn 0021-4876Article

Microstructure-property correlation in martensite-austenite mixtures = Corrélation microstructure ― propriétés dans les mélanges martensite-austéniteECKSTEIN, C. B; GUIMARAES, J. R. C.Journal of materials science. 1984, Vol 19, Num 9, pp 3043-3048, issn 0022-2461Article

The inverse Hall-Petch effect in nanocrystalline ZrN coatingsQI, Z. B; SUN, P; ZHU, F. P et al.Surface & coatings technology. 2011, Vol 205, Num 12, pp 3692-3697, issn 0257-8972, 6 p.Article

The changes in the mean intercept length as a function of strain and their implications for the Hall-Petch analysisKURZYDŁOWSKI, K. J.Journal of materials science letters. 1990, Vol 9, Num 7, pp 788-789, issn 0261-8028, 2 p.Article

Mechanical properties and multi-scale modeling of nanocrystalline materialsBENKASSEM, S; CAPOLUNGO, L; CHERKAOUI, M et al.Acta materialia. 2007, Vol 55, Num 10, pp 3563-3572, issn 1359-6454, 10 p.Article

Proposed revision to the Hall-Petch relationship for single-phase imperfect polycrystalsZHENYU TENG; BENWEI YANG; FENG-EN TENG et al.Materials characterization. 1995, Vol 34, Num 4, pp 231-235, issn 1044-5803Article

The hall-petch relationship in nanocrystalline iron produced by ball millingJANG, J. S. C; KOCH, C. C.Scripta metallurgica. 1990, Vol 24, Num 8, pp 1599-1604, issn 0036-9748Article

Comment on Alternative physical explanation of the Hall-Petch relationGAVRILJUK, Valentin G.Scripta materialia. 2005, Vol 52, Num 9, pp 951-953, issn 1359-6462, 3 p.Article

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