建立了一种新的材料三维组织及其演变的 Ｍｏｎｔｅ Ｃａｒｌｏ仿真方法．算法构造简便，使用灵活，不仅能够准确地反映三维正常晶粒长大的动力学过程，而且可以明显提高模拟效率．仿真既能可靠地应用于材料组织及其演变的定量分析，又可方便地用于立体材料水平截面、空间任意角度截面显微组织及其演变过程的观察、三维系统和二维截面组织表征参量及其对应关系的测定等多个方面． A new three-dimensional structure of materials and its evolution Monte Carlo simulation method are established. The algorithm has the advantages of simple structure and flexible use, not only can accurately reflect the dynamic process of three-dimensional normal grain growth, but also can obviously improve the simulation efficiency. Simulation can not only be applied to the quantitative analysis of material organization and its evolution, but also can be easily applied to the horizontal section of the three-dimensional material, the observation of the microstructure and its evolution process at any angle in space, the three-dimensional system and two-dimensional cross-sectional tissue characterization parameters And the corresponding relationship between the determination and many other aspects.