B-Fe-U Phase DiagramDIAS, Marta; CARVALHO, Patrícia Almeida; MARDOLCAR, Umesh Vinaica et al.Metallurgical and materials transactions. A, Physical metallurgy and materials science. 2014, Vol 45, Num 4, pp 1813-1822, issn 1073-5623, 10 p.Article

Modulated lattice relaxation in β-based premartensitic phase = «Relaxation de réseau modulée» dans la phase prémartensitique à base βYAMADA, Y; NODA, Y; TAKIMOTO, M et al.Solid state communications. 1985, Vol 55, Num 11, pp 1003-1006, issn 0038-1098Article

Recristallisation structurale au cours du chauffage des alliages de titane dans le domaine βNOVIKOV, I. I; PORTNOJ, V. K; ANIKANOV, N. L et al.Fizika metallov i metallovedenie. 1989, Vol 68, Num 1, pp 156-160, issn 0015-3230Article

Comportement à la précipitation d'hydrure et morphologie des fractures de l'alliage Ti-6 Al-4 VFUKUYAMA, S; YOKOGAWA, K; ARAKI, M et al.Zairyo. 1985, Vol 34, Num 381, pp 709-715, issn 0514-5163Article

Transmission Electron Microscopic Investigations of Grain Boundary Beta Phase Precipitation in Al 5083 Aged at 373 K (100 °C)GOSWAMI, Ramasis; HOLTZ, Ronald L.Metallurgical and materials transactions. A, Physical metallurgy and materials science. 2013, Vol 44, Num 3, pp 1279-1289, issn 1073-5623, 11 p.Conference Paper

Nomenclature of martensites in β-phase alloysDELAEY, L; CHANDRASEKARAN, M.Journal de physique. IV. 1995, Vol 5, Num 2, pp C2.251-C2.256, issn 1155-4339Conference Paper

Electrochemical nucleation and growth of β-LiAl alloy in aprotic electrolyte solutions = Formation de germe électrochimique et croissance de l'alliage LiAl bêta dans les solutions d'électrolyte exemptes de protons = Elektrochemische Keimbildung und Wachstum der β-LiAl-Legierung in protonenfreien ElektrolytloesungenGERONOV, Y; ZLATILOVA, P; STAIKOV, G et al.Electrochimica acta. 1984, Vol 29, Num 4, pp 551-555, issn 0013-4686Article

Singularities of the electronic structure and pre-martensitic anomalies of lattice properties in β-phases of metals and alloysKATSNELSON, M. I; NAUMOV, I. I; TREFILOV, A. V et al.Phase transitions (Print). 1994, Vol 49, Num 1-3, pp 143-191, issn 0141-1594Article

Tweed microstructures. I: Characterization in β-NiAl = Microstructures tweed. I. Caractérisation dans β-NiAlROBERTSON, I. M; WAYMAN, C. M.Philosophical magazine. A. Physics of condensed matter. Defects and mechanical properties. 1983, Vol 48, Num 3, pp 421-442, issn 0141-8610Article

Optimising mechanical properties in alpha + beta titanium alloysEVANS, W. J.Materials science & engineering. A, Structural materials : properties, microstructure and processing. 1998, Vol 243, Num 1-2, pp 89-96, issn 0921-5093Conference Paper

The β to γ transformation in cerium : A twenty year studyGSCHNEIDNER, K. A; PECHARSKY, V. K; CHO, J et al.Scripta materialia. 1996, Vol 34, Num 11, pp 1717-1722, issn 1359-6462Article

Direct observation of α→β transformatoin in Tin by transmission electron microscopyOJIMA, K; TANEDA, Y; TAKASAKI, A et al.Physica status solidi. A. Applied research. 1993, Vol 139, Num 1, pp 139-144, issn 0031-8965Article

Effect of zinc content on processing map for hot deformation of β brassPADMAVARDHANI, D; PRASAD, Y. V. R. K.Materials science and technology. 1991, Vol 7, Num 10, pp 947-953, issn 0267-0836Article

Effect of adding cobalt and iron on the resistance of β₁-phase in Cu-Al-Mn alloys to decompositionBUBLEI, I. R; EFIMOVA, T. V; TITOV, P. V et al.Metal science and heat treatment. 1990, Vol 32, Num 11-12, pp 877-878, issn 0026-0673Article

Morphology of voids in quenched β-brass = Morphologie des cavités dans le laiton β trempéYORIKAWA, H; YAMAGUCHI, H.Journal of the Physical Society of Japan. 1988, Vol 57, Num 12, pp 4191-4198, issn 0031-9015Article

Influence of parameters of lamellar structure on the properties of the titanium alloy VT3-1BRUN, M.Ya; SHAKHANOVA, G.V; SOLDATENKO, I.V et al.Metallovedenie i termičeskaâ obrabotka metallov. 1986, Vol 32, Num 7, pp 52-55, issn 0026-0819Article

The simultaneous deposition of nickel and hydrogen on vitreous carbon = Le dépôt simultané de nickel et d'hydrogène sur le carbone vitreux = Die simultane Abscheidung von Nickel und Wasserstoff auf glasfoermigem KohlenstoffFLEISCHMANN, M; SARABY-REINTJES, A.Electrochimica acta. 1984, Vol 29, Num 1, pp 69-75, issn 0013-4686Article

Morphology and interfacial structure of gamma precipitates in the beta phase of a Ti-Ai-Nb-Zr alloyAINDOW, M.Journal of materials science. 2006, Vol 41, Num 3, pp 611-619, issn 0022-2461, 9 p.Article

Phase transformations during cooling in α + β titanium alloysAHMED, T; RACK, H. J.Materials science & engineering. A, Structural materials : properties, microstructure and processing. 1998, Vol 243, Num 1-2, pp 206-211, issn 0921-5093Conference Paper

Influence des séquences de traitements thermiques sur les transformations structurales de l'alliage bêta-Cez. Aspects cinétiques et morphologiques = Influence of the thermal treatment sequences on structural transformation of the titanium beta-Cez alloy (kinetical and morphological aspects)Sanguinetti Ferreira, Ricardo-Artur; Gautier, E.1994, 131 p.Thesis

Eine Ergänzung des Dreistoffsystems Blei-Cadmium-ZinnGODECKE, T.Zeitschrift für Metallkunde. 1991, Vol 82, Num 7, pp 553-559, issn 0044-3093Article

Microtwinning in Ni-Mn resulting from the β→E martensitic transformation = Maclage microscopique dans Ni-Mn dû à la transformation martensitique thêta = Mikrozwillingsbildung in Ni-Mn infolge der β→E MartensitumwandlungBAELE, I; VAN ENDELOO, G; AMELINCKX, S et al.Acta metallurgica. 1987, Vol 35, Num 2, pp 401-412, issn 0001-6160Article

Acoustic emission during martensitic transformation in β Cu-Zn alloy = Emission acoustique durant la transformation martensitique dans l'alliage β Cu-ZnESMAIL, E; GRABEC, I.Phase transitions (Print). 1987, Vol 9, Num 3, pp 281-288, issn 0141-1594Article

The physical metallurgy of the copper-zinc and copper-aluminium shape memory alloys = Métallurgie physique des alliages à mémoire de forme Cu-Zn et Cu-AlDELAEY, L.ATB Métallurgie (1978). 1985, Vol 25, Num 2, pp 163-169Article

Determination of the hydrogen diffusion coefficient in metals according to the rate of electric resistance variation under desorptionMIKITISHIN, S.I; FEDOROV, V.V; SERGIENKO, O.M et al.Fiziko-himičeskaâ mehanika materialov. 1985, Vol 21, Num 1, pp 24-26, issn 0430-6252Article