了解多物理场仿真在基础研究和产品设计中的应用
各个行业的工程师和科研人员都在使用多物理场仿真来研发创新的产品设计和流程。他们在 COMSOL 用户年会上展示了丰富的技术论文和演示文稿,您可以从他们的研究成果中寻找灵感。
使用左侧【快速搜索】工具查找您感兴趣的研究,或按照应用领域进行筛选。
查看 COMSOL 用户年会 2024 论文
High power CO2 lasers have been the workhorses for sheet metal cutting, welding and many more applications in ... 扩展阅读
The thermal performance of the dry type power transformers is directly connected to the internal heat source ... 扩展阅读
A three-dimensional heterogeneous model of breast has been modeled with a spherical tumor of 1.5 cm. PID ... 扩展阅读
This paper deals with the simulation and analysis of SAR and temperature distribution induced by a Planar ... 扩展阅读
The growing demand for efficient transmission (1), including refurbishing of existing lines, requires ... 扩展阅读
飞机燃油系统雷电防护是飞机设计中需要考虑的一个重要部分。用实验方法研究成本较高,且周期长,数值仿真方法具有明显的优势。本文基于COMSOL Multiphysics有限元仿真软件 ... 扩展阅读
引言:微波干燥过程涉及多物理场的耦合,物理过程十分复杂。不仅有被加热物质的形态改变,还有气态、液态和固态三相的相互作用。为了更清楚地理解微波干燥过程,本模型将电磁场、多相流和物理变形用相应的方程耦合到一起建模分析 ... 扩展阅读
A wide variety of near-field optical phenomena such as apertureless near-field scanning microscopy (ANSM) at ... 扩展阅读
This paper is a preliminary design study to develop a hybrid atmospheric icing sensor which have an adequate ... 扩展阅读
The air gap is one of the most crucial part of magnetic circuits, especially in high-power inductors. It ... 扩展阅读