Tytuł artykułu

Structural Transformations Versus Hard Particles Motion in the Brass Ingots

Tytuł czasopisma

Archives of Metallurgy and Materials

Rocznik

2017

Wolumin

vol. 62

Numer

No 4

Autorzy

Kwapisiński, P. ; Wołczyński, W. ; Ivanova, A.A. ; Olejnik, E.

Wydział PAN

Nauki Techniczne

Wydawca

Institute of Metallurgy and Materials Science of Polish Academy of Sciences ; Committee of Materials Engineering and Metallurgy of Polish Academy of Sciences

Data

2017

Identyfikator

DOI: 10.1515/amm-2017-0362 ; e-ISSN 2300-1909

Źródło

Archives of Metallurgy and Materials; 2017; vol. 62; No 4

Referencje

Martorano (2004), Interaction Mechanism for Columnar - to - Equiaxed Transition in Alloy Solidification Metallurgical, Materials Transactions, 24, 1915. ; Perzyk (2016), Methodology of Fault Diagnosis in Ductile Iron Melting Process of Foundry, Archives Engineering, 16, 39. ; Lipnicki (2011), Influence of Thermal Boundary Layer on the Contact Layer between Liquid and a Cold Plate in a Solidification Process and Mass Transfer, Heat, 1629. ; Suzuki (1981), The Mechanism of Reducing A Segregates in Steel Ingots of the Iron and of, Transactions Steel Institute Japan, 22, 235. ; Zimmermann (2014), to - Equiaxed Transition in Solidification Processing of Alloys in Micro - gravity CETSOL Project, Materials Science Forum, 30, 790. ; Cholewa (2010), Layers Casting of Achievements in Materials, Bimetallic Journal Manufacturing Engineering, 16, 385. ; Burbelko (2012), Modeling of the Grain Structure Formation in the Steel Continuous Ingot by CAFE Method of and, Archives Metallurgy Materials, 11, 379. ; Zyska (2016), Modelling of the Dendritic Crystallization by the Cellular Automaton Method of Foundry, Archives Engineering, 18, 99. ; Hamdi (1998), Numerical Modeling of the Columnar to Equiaxed Transition in Continuous Casting of Modelling of Casting Welding and Advanced Solidification Process VIII Proceedings of the VIII - th Conference on Modeling of Casting Welding and Advanced Solidification San, USA, 7. ; Fraś (2008), Interaction between Solidification Front and Alien Phase Particles of and, Archives Metallurgy Materials, 53. ; Gandin (1994), Ch Three Dimensional Simulation of the Grain Formation in Investment Casting, Metallurgical Transactions, 23, 629. ; Wołczyński (2016), Large Steel Ingots Microstructure Modeling Entry in The Encyclopedia of Iron and Their Alloys New York, Mathematical, 1. ; Hunt (1984), Steady State of and, Growth Materials Science Engineering, 65. ; Szajnar (2009), Influence of Electromagnetic Field on Pure Metals and Alloys Structure of Achievements in Materials and, Journal Manufacturing Engineering, 15, 95. ; Nguyen (2006), Influence of Forced Convection on Columnar Microstructure during Directional Solidification of Alloys, Materials Science Forum, 26, 508. ; Ivanova (2009), Nieprerywnolitogo Metallurgicheskije i, null, 12, 7. ; McFadden (2010), of a Microgravity Experiment for Columnar to Equiaxed Transitions with Modeling Results, Analysis Materials Science Forum, 29, 649. ; Lorbiecka (2010), Simulation of Dendritic Growth with Different Orientation by Using the Point Automata Method Materials, Computers Continua, 18, 69. ; Wołczyński (2016), Structural Zones in Large Static Ingots Forecasts for Continuously Cast Brass Ingot of Foundry, Archives Engineering, 16, 141. ; Zubko (1973), Reaction of Foreign Particles with a Crystallization Front Soviet Physics, null, 18, 239. ; Alexandrova (2009), Mushy Layer Formation during Solidification of Binary Alloys from a Cooled the Role of Boundary Conditions, Acta Physica Polonica, 6. ; Lorbiecka (2010), Sensitivity Study of Grain Growth Model for Prediction of Transformations in Continuous Steel Casting, Materials Science Forum, 649. ; Miyata (2010), Morphological Transition in High Growth Rate in Constrained Solidification, Materials Science Forum, 28, 649. ; Umeda (1997), Heat Mass and Microstructure Simulation of Continuous Casting of th International Symposium on Physical Simulation Japan, Proceedings, 31, 3. ; Stetina (2011), Numerical Model of Heat Transfer and Mass Transfer during Solidification of Concasting Proceedings of the th Thermal Engineering Joint Conference - Honolulu Hawaii USA JSME Conference CD, null, 2, 13. ; McFadden (2006), Prediction of the Formation of an Equiaxed Zone ahead of a Columnar Front in Binary Alloys Castings : Indirect and Direct, Methods Materials Science Forum, 27, 508. ; Billia (2005), Equiaxed Transition in Solidification Processing and, Microgravity Science Technology, 25, 290. ; Telejko (2009), of Heat Transfer and Fluid Flow in Continuous Steel Casting of and, Analysis Archives Metallurgy Materials, 20, 837. ; Ivanova (2012), Calculation of Phase Change Boundary Position in Continuous Casting of Foundry, Archives Engineering, 13, 13. ; Tkadlečkova (2016), Study of Solidification of Continuously Cast Steel Round Billets using Numerical Mode of and, Archives Metallurgy Materials, 14, 61. ; Mochnacki (2000), Application of the Boundary Element Method for the Numerical Modelling of the Solidification of Cylindrical and Spherical Castings of Materials Processing, Journal Technology, 106, 99. ; Shangguan (1992), Stefan An Analytical Model for the Interaction between an Insoluble Particle and an Advancing Solid / Liquid Interface, Metallurgical Transactions, 23, 37. ; Konozsy (2010), to Equiaxed Transition during Ingot Casting using Ternary Alloy Composition, Materials Science Forum, 649. ; Wróbel (2011), Layered Casting Alloy Cast Iron of and, Archives Materials Science Engineering, 17, 118.