讲座题目：Pre-trained Surrogate Models in A Multiscale Computational Homogenization Framework 个人简介： ...

Computational homogenization has emerged as an indispensable tool for bridging the gap between the microscale heterogeneity of composite materials and their macroscopic behaviour. By employing ...

Homogenization is vital in many industrial processes, including food, cosmetics, and pharmaceuticals. High-pressure homogenization and sonication are two widely used homogenization techniques. However ...

The elastoplastic response of polycrystalline metals and minerals above their brittleductile transition temperature is idealized here as rigid–perfectly plastic. Bounds on the overall plastic strength ...

Homogenization theory provides a rigorous framework for bridging the gap between microscale heterogeneities and macroscale behaviour in systems such as porous media and composite materials. By ...

Homogenization is an essential step in several industrial processes, such as pharmaceuticals, food, and cosmetics. Two common homogenization methods are high-pressure homogenization (HPH) and ...

Composite materials are made by combining two or more distinct materials, such as a fiber and a matrix, to exploit the best qualities of each. However, predicting the performance of a composite ...

Estimating composite material properties can be computationally expensive and time-consuming. Researchers from Pusan National University (Busan, South Korea) have proposed a reduced basis ...

Biological samples come in all shapes and sizes, for example, tough and fibrous plants, hard bones, soft muscles, tough and viscous sputum, or tumor or liver tissue. In addition, there are millions of ...

One of the most time-consuming bottlenecks in molecular biology experiments is efficient grinding, homogenization, and lysis of starting materials. This is especially important in plant research, soil ...