| References |
Gusakova, O., Shepelevich, V., Scherbachenko, L., Effect of melt cooling rate on microstructure of Sn-Bi and Sn-Pb eutectic alloys (2014) Advanced Materials Research, 856, pp. 236-240; Gusakova, O.V., Shepelevich, V.G., Structure and properties of rapidly solidified foils of alloys of Sn-Zn-Bi system (2010) Inorganic Materials: Applied Research, 1 (4), pp. 344-349; Li, B., Brody, H.D., Kazimirov, A., Real time observation of dendrite coarsening in Sn-13 % Bi alloy by synchrotron microradiography (2004) Physical Review E, 70 (6), 4p. , 062602; Yoshioka, H., Tada, Y., Hayashi, Y., Crystal growth and its morphology in the mushy zone (2004) Acta Materialia, 52 (6), pp. 1515-1523; Zhai, Q.J., Gao, Y.L., Guan, W.B., Xu, K.D., Role of size and cooling rate in quenched droplet of Sn-Bi eutectic alloy (2006) Materials Science and Engineering: A, 441 (1-2), pp. 278-281; Kurz, W., Fisher, D.J., Dendrite growth at the limit of stability: Tip radius and spacing (1981) Acta Metallurgica, 29 (1), pp. 11-20; Herlach, D.M., Galenko, P., Holland-Moritz, D., (2007) Metastable Solids from Undercooled Melt, 432p. , Amsterdam: Elsevier; Miroshnichenko, I.S., (1982) Zakalka Iz Zhidkogo Sostoyaniya (Quenching from the Liquid state), 168p. , Moscow: Metallurgiya; Shepelevich, V.G., (2015) Bystrozatverdevshie Legkoplavkie Splavy (Rapidly Solidified Fusible alloys), 192p. , Minsk: Belarusian State University; Kamal, M., El-Bediwi, A.-B., El-Ashram, T., The effect of rapid solidification on the structure, decomposition behavior, electrical and mechanical properties of the Sn-Cd binary alloys (2004) Journal of Materials Science: Materials in Electronics, 15 (4), pp. 211-217; Gusakova, O.V., Shepelevich, V.G., Decomposition of a supersaturated solid solution in thin foils of Sn-Bi alloys (2009) The Physics of Metals and Metallography, 108 (3), pp. 292-297; Galenko, P.K., Herlach, D.M., Diffusionless crystal growth in rapidly solidifying eutectic systems (2006) Physical Review Letters, 96 (15), 4p. , 150602; Galenko, P., Solute trapping and diffusionless solidification in a binary system (2007) Physical Review E, 76 (3), 9p. , 031606; Galenko, P.K., Abramova, E.V., Jou, D., Danilov, D.A., Lebedev, V.G., Herlach, D.M., Solute trapping in rapid solidification of a binary dilute system: A phase-field study (2011) Physical Review E, 84 (4), 17p. , 041143; Larikov, L.N., Shmatko, O.A., (1976) Yacheistyi Raspad Peresyshchennykh Tverdykh Rastvorov (Cellular Decomposition of Supersaturated Solid solutions), 179p. , Kiev: Naukova dumka; Novikov, I.I., (1986) Teoriya Termicheskoi Obrabotki Metallov (Theory of Thermal Treatment of metals), 480p. , Moscow: Metallurgiya; Engler, O., Randle, V., (2010) Introduction to Texture Analysis: Macrotexture, Microtexture, and Orientation Mapping, 417p. , CRC Press; (1996) Diagrammy Sostoyaniya Dvoinykh Metallicheskikh System. Spravochnik V 3 Tomakh (The State Diagrams of Binary Metallic Systems. Handbook in 3 volumes), 992p. , Lyakishev N. P. Ed., Moscow: Mashinostroenie; Gusakova, O.V., Shepelevich, V.G., Decomposition of supersaturated solid solution in alloy Sn-8 at. % Bi obtained by rapid solidification from the melt technique (2008) Abstracts of XXII Russian Conference on Electron Microscopy (SEM-2008), p. 164. , Institute of Microelectronics Technology and High Purity Materials RAS, Institute of Crystallography RAS, Chernogolovka, in Russian; Zemtsova, N.D., Starchenko, E.I., Possibility of development of cellular decomposition under conditions of low-angled boundary migration (1980) Fizika Metallov i Metallovedenie, 50 (3), pp. 655-659. , Russian |