CAJ | 학술논문

结合晶粒长大过程中的物理基础，采用热激活、曲率驱动和能量耗散机制，引入能量降幅最大判据，建立了描述316LN 不锈钢晶粒正常长大的元胞自动机模型，对316LN 不锈钢晶粒长大过程进行模拟，模拟结果较准确地反映了晶粒正常长大规律。通过将模拟和试验的晶粒生长指数进行对比，表明在试验温度范围内，该模型可用于预测316LN不锈钢的晶粒尺寸。
결합정립장대과정중적물리기출，채용열격활、곡솔구동화능량모산궤제，인입능량강폭최대판거，건립료묘술316LN 불수강정립정상장대적원포자동궤모형，대316LN 불수강정립장대과정진행모의，모의결과교준학지반영료정립정상장대규률。통과장모의화시험적정립생장지수진행대비，표명재시험온도범위내，해모형가용우예측316LN불수강적정립척촌。
In combination with the physical basis in the process of grain growth, which are thermodynamics, curvature-driven and energy dissipation mechanism, a cellular automata model for normal grain growth of 316LN austenitic stainless steel is proposed using the criterion of the largest decline in energy. The results show that the Cellular Automata model can satisfactorily simulate the grain growth dynamics. The comparison of the simulated growth index with the experimental results, shows that the model works well in predicting the grain size involved in the process of grain growth of 316LN within the experimental temperature range.