应用分形理论探讨了钢液中凝聚态夹杂物的性质、凝聚规律及上浮特性。结果表明:两个源碰撞夹杂物颗粒碰撞连结的方式不同,所生成的新凝聚态夹杂物颗粒的形貌特征和分形维数就可能存在较大差异;带有分形特征的凝聚态夹杂物的上浮速度要小于等体积三维球状实体夹杂物的上浮速度;新生凝聚态夹杂物的分形维数相对源碰撞夹杂物较小,所以对凝聚成的大尺寸夹杂物颗粒要对其加强重构,使其变得致密,增大其分形维数,有利于提高其上浮速度;分形维数的测定可以更精确地定量描述夹杂物的形貌特征,完善夹杂物检测的标准。
The property, agglomeration rules and floating characteristics of condensed inclusions in liquid steel are discussed by applying fractal theory. The results show that: the appearance characteristics and fractal dimen- sions may be greatly different with different connection ways of two source collision inclusion particles; the floating velocity of condensed inclusion with fractional characteristic is smaller than that of isometric three dimension spherical inclusion; the fractal dimension of new generated inclusion is mostly smaller than that of source collision inclusions, so the large size of generated condensed inclusion needs to be reconstructed to be made compact, so that increasing its fractal dimension is beneficial for increasing its floating velocity; the topography characteristics of inclusions can be exactly described by fractal dimension, which will also improve the inclusion testing standards.
参考文献
| [1] | 郭洛方,李宏,王耀,李永卿.Al_2O_3夹杂物在钢-渣界面处的运动特性及去除率[J].钢铁,2012(04):23-27. |
| [2] | 舒志浩;程树森;赵晶晶 等.钢液中夹杂物的碰撞长大及去除[J].北京科技大学学报,2009,31(增刊1):118. |
| [3] | 李宏,温娟,张炯明,王新华,佐佐木康,日野光兀.应用DLA模型模拟钢中夹杂物集团凝聚[J].北京科技大学学报,2006(04):343-347. |
| [4] | 李宏,郭洛方,潘永红,佐佐木康,日野光兀.应用DLA模型对钢中夹杂物凝聚过程的三维模拟[J].过程工程学报,2009(z1):312-316. |
| [5] | 张炯明,邓凤琴,王文科,王新华,牟济宁,唐海波,汪宁.连铸中间包钢水夹杂物浓度的数值模拟[J].北京科技大学学报,2004(03):247-250. |
| [6] | Taniguchi S;Kikuchi A .Mechanisms of Collision and Coagu-lation Between Fine Particles in Fluid[J].ISIJ International,1992,78(04):527. |
| [7] | Zhang Lifeng;Shoji Taniguchi;Cai Kaike.Fluid Flow and Inclusion Removal in Continuous Casting Tundish[J].Met allurgical and Materials Transactions B,2000(31B):253. |
| [8] | Nakanishi K;Szekely J.Deoxidation Kinetics in a Turbulent Flow Field[J].Transactions of the Iron and Steel Institute of Japan,1975(15):522. |
| [9] | Braun T.B;Elliott J.F;Flemings M.C .The Clustering of Alumina Inclusions[J].Metallurgical and Materials Transactions B:Process Metallurgy and Materials Processing Science,1979,10B:171. |
| [10] | 赵连刚,刘坤.连铸中间包内钢水夹杂物运动行为的数学模拟[J].钢铁研究学报,2002(06):19-24. |
| [11] | Lindborg U;Torssel K .A Collision Model for the Growth and Separation of Deoxidation Products[J].Metall Soc AIME,1968,242:94. |
| [12] | Linder S .Hydrodynamics and Collisions of Small Particles in a Turbulent Metallic Melt With Special Reference to Deoxidation of Steel[J].Journal of Metallurgy,1974,3:137. |
| [13] | 宁林新,李宏,张炯明,王万军,王新华,马瑞金.钢中夹杂物的分形维数[J].钢铁研究学报,2005(06):59-62. |
| [14] | Lech Gmachowski .Estimation of the Dynamic Size of Fractal Aggregation-Colloids and Surfaces[J].Colloids and Surfaces A:Physicochemical and Engineering Aspects,2000,170:209. |
| [15] | Lech Gmachowski .Calculation of the Fractal Dimension of Aggregates[J].Colloids and Surfaces A:Physicochemical and Engineering Aspects,2002,211:179. |
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