摘要
以等价比热容法处理结晶潜热和以假设的流线边界划分网格节点,建立了双辊连铸薄带凝固过程的宏观速度场、传热、溶质传输和凝固组织形成的微观数学模型以及双辊连铸薄带凝固过程的宏观-微观耦合数学模型。同时,以固相率为媒介,采用宏微观不同的网格尺寸和时间步长,实现了宏观模型与微观模型的耦合,并对建立的双辊连铸薄带凝固组织形成的数学模型进行了验证。
Micro-mathematical models of macro-velocity filed,heat transfer,solute transfer and solidification structure formation and macro-micro coupling model during solidification process in twin-roll continuous casting strip were established,in which equivalent specific heat method was employed to treat latent heat and mesh was divided by assumed streamline boundary.Meanwhile,with the help of solid fraction,taking varied mesh size and time-steps in macro-micro condition,the coupling of macro-micro model is realized.The simulated results are well in agreement with the experimental ones.
出处
《特种铸造及有色合金》
CAS
CSCD
北大核心
2011年第9期803-806,共4页
Special Casting & Nonferrous Alloys
基金
新国家自然科学联合基金资助项目(u0837601)
关键词
双辊连续铸轧
凝固组织
数学模型
耦合
仿真模拟
Twin-roll Continuous Casting
Solidification Structure
Mathematical Model
Coupling
Simulation
