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APPLICATION OF THE CONFORMAL REPRESENTATION METHOD TO THE CALCULATION OF INGOT SOLIDIFICATIONKAZANTSEV EI; TEMNIK AV.1982; IZVESTIJA VYSSIH UCEBNYH ZAVEDENIJ. CERNAJA METALLURGIJA; ISSN 0368-0797; SUN; DA. 1982; NO 7; PP. 22-26; BIBL. 3 REF.Article
COOLING CHARACTERISTICS OF THE TWIN-ROLL RAPID SOLIDIFICATION PROCESSMIYAZAWA K; CHOH T; INOUYE M et al.1982; J. JAP. INST. MET.; ISSN 0021-4876; JPN; DA. 1982-11; VOL. 46; NO 11; PP. 1102-1108; BIBL. 11 REF.Article
Schichtverfahren zur Bestimmung der Erstarrungsfronten und der Lage von Seigerungszonen sowie Eigenschaften in den Seigerungszonen bei Stahlgussstuecken = Methods of layers for the determination of solidification contours and of segregated zones as well as of physical properties in these segregated zones of steel castingsBOEHM, H.J.Giesserei. 1983, Vol 70, Num 1, pp 6-13, issn 0016-9765Article
INFLUENCE OF INITIAL SUPERHEAT OF MOLTEN METALS ON GROWTH RATE OF SOLIDIFYING LAYER IN MOLD CAVITYMATSUDA M; KIDO J.1982; IMONO. (JOURNAL OF THE JAPAN FOUNDRYMENS' SOCIETY); ISSN 0021-4396; JPN; DA. 1982; VOL. 54; NO 4; PP. 213-219; ABS. ENG; BIBL. 9 REF.Article
HEAT FLOW IN CONTROLLED DIRECTIONAL SOLIDIFICATION OF METALS:2. MATHEMATICAL MODELCLYNE TW.1980; J. CRYST. GROWTH; NLD; DA. 1980-11; VOL. 50; NO 3; PP. 691-700; BIBL. 12 REF.Article
Growth Constants in SolidificationAGARWAL, Saurabh; JOHNS, Lewis E; NARAYANAN, Ranga et al.Industrial & engineering chemistry research. 2008, Vol 47, Num 15, pp 5087-5091, issn 0888-5885, 5 p.Article
Chimney Formation in Solidifying Ga-25wt pct In Alloys Under the Influence of Thermosolutal Melt ConvectionSHEVCHENKO, Natalia; BODEN, Stephan; GERBETH, Gunter et al.Metallurgical and materials transactions. A, Physical metallurgy and materials science. 2013, Vol 44, Num 8, pp 3797-3808, issn 1073-5623, 12 p.Article
Effect of Sn on the Characteristic Solidification Temperatures of AlSi6Cu4 Alloy = Auswirkung von Sn auf die charakteristischen Erstarrungstemperaturen einer AlSi6Cu4-LegierungDJURDJEVIC, M; MUCHE, D; STAUDER, B et al.Praktische Metallographie. 2012, Vol 49, Num 6, pp 356-376, issn 0032-678X, 21 p.Article
Interface attachment kinetics in alloy solidificationAZIZ, M. J.Metallurgical and materials transactions. A, Physical metallurgy and materials science. 1996, Vol 27, Num 3, pp 671-686, issn 1073-5623Conference Paper
THE FREEZING POINT OF PLATINUM RECENTLY ESTABLISHED VALUES IN CLOSE AGREEMENT.QUINN TJ.1977; PLATINUM METALS REV.; G.B.; DA. 1977; VOL. 21; NO 4; PP. 133; BIBL. 7 REF.Article
Changing domains and a solidification problem with voidLENHART, S. M; WILSON, D. G.Quarterly of applied mathematics. 1989, Vol 47, Num 4, pp 601-610, issn 0033-569X, 10 p.Article
Solidification paths of multicomponent monotectic aluminum alloysMIRKOVIC, Djordje; GRÖBNER, Joachim; SCHMID-FETZER, Rainer et al.Acta materialia. 2008, Vol 56, Num 18, pp 5214-5222, issn 1359-6454, 9 p.Article
THE EFFECT OF SHRINKAGE ON THE RATE OF SOLIDIFICATION OF A CYLINDRICAL INGOT = EFFET DU RETRAIT SUR LA VITESSE DE SOLIDIFICATION D'UN LINGOT CYLINDRIQUEBECKETT PM; HOBSON N.1980; INTERNATION. J. HEAT MASS TRANSFER; GBR; DA. 1980; VOL. 23; NO 4; PP. 433-436; ABS. FRE/GER/RUS; BIBL. 10 REF.Article
ANALYSIS OF SOLIDIFICATION INTERFACE SHAPE DURING CONTINUOUS CASTING OF A SLABSIEGEL R.1978; INTERNATION. J. HEAT MASS TRANSFER; GBR; DA. 1978; VOL. 21; NO 11; PP. 1421-1430; ABS. FRE/GER/RUS; BIBL. 11 REF.Article
Mécanisme de la solidification monotectique des alliages à base d'aluminiumKAMIO, A; TEZUKA, H; KUMAI, S et al.Nippon Kinzoku Gakkaishi (1952). 1985, Vol 49, Num 8, pp 677-683, issn 0021-4876Article
Laboratory micro- and nanoscale X-ray tomographic investigation of Al-7 at.%Cu solidification structuresPATTERSON, B. M; HENDERSON, K. C; GIBBS, P. J et al.Materials characterization. 2014, Vol 95, pp 18-26, issn 1044-5803, 9 p.Article
A direct method of solidification for the enhancement of mushy zone network modelsDIJKSTRA, W. O; VUIK, C; KATGERMAN, L et al.Materials science & engineering. A, Structural materials : properties, microstructure and processing. 2005, Vol 413-14, pp 255-258, issn 0921-5093, 4 p.Conference Paper
Mécanisme de formation et de croissance des pores dans l'aluminium fondu près de l'interface de solidificationSHINADA, Y; UEDA, Y; NISHI, S et al.Keikinzoku. 1983, Vol 33, Num 8, pp 445-451, issn 0451-5994Article
Dynamic instabilities of rod-like eutectic growth patterns: A real-time studyPERRUT, Mikael; BOTTIN-ROUSSEAU, Sabine; FAIVRE, Gabriel et al.Acta materialia. 2013, Vol 61, Num 18, pp 6802-6808, issn 1359-6454, 7 p.Article
Method for the calculation of steel freezing temperaturesDENISOV, V.A; DENISOV, A.V.Litejnoe proizvodstvo. 1983, Vol 5, issn 0024-449X, 11Article
Méthodes de solidification rapide des métauxKOBAYASHI, K. F.Imono. 1985, Vol 57, Num 5, pp 273-278, issn 0021-4396Article
ECHANGE THERMIQUE ENTRE LE FLUX DE BAIN FONDU ET LE FRONT DE CRISTALLISATION DU LINGOTSAMOJLOVICH YU A.1978; FIZ. KHIM. OBRABOT. MATER.; SUN; DA. 1978; NO 6; PP. 28-35; BIBL. 12 REF.Article
Modeling of primary spacing selection in dendrite arrays during directional solidificationDEXIN MA.Metallurgical and materials transactions. B, Process metallurgy and materials processing science. 2002, Vol 33, Num 2, pp 223-233, issn 1073-5615Article
Comparison of dendrites of a pure material with thermal alloy dendrites : An experimental method to estimate the T0-TEMPERATURELUDWIG, A.Acta materialia. 2001, Vol 49, Num 1, pp 165-168, issn 1359-6454Article
Cellular states in a boundary-layer model of directional solidificationKARMA, A; GOLDENFELD, N.Physical review. B, Condensed matter. 1985, Vol 31, Num 11, pp 7018-7021, issn 0163-1829Article