本论文是玻璃／铝金属基废弃物复合材料的基础理论研究，从搅拌流体的动力学条件出发，利用相似理论的概念，建立满足实际搅拌系统的几何和动力学相似的理想透明的模型系统．然后进行模似试验，并利用正交试验以及图像分析技术研究搅拌条件（如叶片种类和数量、叶片直径和容器直径之比、搅拌速度、叶片相对于容器底部的高度等）对搅拌混合质量的影响。在模型研究的基础上，利用永田功率关联式和材料力学理论为制取玻璃／铝复合材料真空流变装置进行功率和强度的设计，为设备制造提供可靠的依据。 Based on the kinetic conditions of the agitated fluid, the concept of similarity theory is used to establish the ideal and transparent model system to meet the geometric and dynamic similarities of the actual agitation system. Then, the model test was carried out. The mixing conditions (such as the type and amount of leaves, the ratio of the diameter of the leaves to the diameter of the container, the stirring speed, the height of the leaves relative to the bottom of the container, etc.) were studied by orthogonal test and image analysis. influences. Based on the model study, the power and strength of the glass / aluminum composite vacuum rheometer was designed by using the Nagata power correlation theory and the theory of material mechanics to provide a reliable basis for equipment manufacturing.