对铸件凝固组织形成的计算机模拟及利用各种数值计算方法所取得的模拟成果进行了评述,重点介绍了晶粒形核和生长的理论数学模型,同时分析和比较了这些数学模型所存在的问题,最后展望了铸件凝固组织模拟的发展方向.
参考文献
[1] | Rappaz M .Modelling of microstrcture formation in solidification process[J].International Materials Reviews,1989,24(03):93-123. |
[2] | Oldfield W .A quatitative approach to casting solidification[J].ASM Transactions,1966,59(02):945-960. |
[3] | Hunt J D .Steady state columnar and equiaxed growth of dendrites and eutectic[J].Materials Science and Engineering,1984,65(01):75-83. |
[4] | Thevoz P h;Desbilles J L;Rappaz M .Modeling of equiaxed microstructure formation in casting[J].Metallurgical and Materials Transactions,1989,20:311-322. |
[5] | Rappaz M;Thevoz P h .Solute diffusion model for equiaxed dendritic growth[J].Acta Materialia,1987,35(07):1487-1497. |
[6] | Rappaz M;Thevoz P h .Solute diffusion model for equiaxed dendritic growth: Analytical Solution[J].Acta Materialia,1987,35(12):2929-2933. |
[7] | Lipton J;Glicksman M E;Kurz W .Equiaxed dendrite growth in alloys at small supercooling[J].Metallurgical and Materials Transactions,1989,18:341-345. |
[8] | FLOOD S C;Hunt J D .A Model of a Casting[J].Applied Scientific Research,1987,44(01):27-42. |
[9] | FLOOD S C;Hunt J D .Columnar and equiaxed growth[J].Journal of Crystal Growth,1987,82(03):543-551. |
[10] | Kurz W;Giovanola B;Trivedi R .Theory of microstructural development during rapid solidification[J].Acta Materialia,1986,34(05):823-830. |
[11] | ZHU Pangping;Smith R W .Dynamic simulation of crystal growth by monte-carlo method[J].Acta Materialia,1992,40(12):3369-3379. |
[12] | Rappaz M;Gandin Ch-A .Probabilistic Modelling of Microstructure Formation in Solidification Process[J].Acta Materialia,1993,41(02):345-360. |
[13] | Nastac L;Stefanescu D M .Macrotransport-solidification kinetics modelling of equiaxed dendritic growth[J].Metallurgical and Materials Transactions,1996,27(12):4061-4082. |
[14] | Wang C Y;Beckerwann C .Equiaxed dendritic solidification with convection: multiscale/multiphase modeling[J].Metallurgical and Materials Transactions A:Physical Metallurgy and Materials Science,1996,27(09):2754-2764. |
[15] | Wang C Y;Beckermann C .Prediction of columnar to equiaxed transition during diffusion-controlled dendritic alloy solidification[J].Metallurgical and Materials Transactions,1994,25(05):1081-1093. |
[16] | Mampaey F .Application of austenite dendrite growth model to analyze liquidus temperature measurments[J].AFS Transactions,1998,106:461-468. |
[17] | Mampaey F .Modeling and experimental validation of austenite dendrite growth[J].AFS Transactions,1998,106:469-475. |
[18] | Spittle J A;Brown S G R .Computer simulation of the effects of alloy variables on the grain structures of casting[J].Acta Materialia,1989,37(07):1803-1810. |
[19] | Brown S G R;Spittle J A .Computer simulation of grain and macrostructure development during solidification[J].Materials Science and Technology,1989,5(04):362-368. |
[20] | Gandin Ch-A;Rappaz M;Trivedi R .Three-dimensional simulation of the grain formation in investment casting[J].Metallurgical and Materials Transactions,1994,25(02):629-637. |
[21] | Gandin Ch-A;Rappaz M;Tintillier R .Three-dimensional probabilistic simulation of solidification grain structures[J].Metallurgical and Materials Transactions,1993,24(02):467-479. |
[22] | Rappaz M.;Gandin C.H. .Prediction of Grain Structures in Various Solidification Processes[J].Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science,1996(3):695-705. |
[23] | Gandin Ch-A;Desbiolles J-L;Rappaz M et al.Grain texture evolution during columnar growth of dendritic alloys[J].Metallurgical and Materials Transactions,1999,30:3153-3162. |
[24] | Lee Kyong-Yee;Hong Chun-Pyo .Stochastic modeling of solidification grain structure of Al-Cu crystalline ribbons in planar casting[J].ISIJ International,1997,37(01):38-46. |
[25] | Cho In-Sung;Hong Chun-Pyo .Modeling of microstructural evolution in spueeze casting of an Al-4[J].5mass% Cu alloy ISIJ Int,1997,37(11):1098-1106. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%