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 2025 论文
In this work, the production intent design of a motor with controller inside a car seat for head restraint ... 扩展阅读
Arcam AB has pioneered additive manufacturing using the electron beam melting (EBM) technology which provides ... 扩展阅读
The recent years have witnessed a growing interest in the possibility of enhancing the information transfer ... 扩展阅读
Plasma torches are used in processing of materials as well as in the energy industry for producing plasma. In ... 扩展阅读
Optical cloaking was considered as fictional. Recent developments shows that macro scale optical cloaking is ... 扩展阅读
飞行器遭受雷击时会产生多物理效应,包括电磁感应效应、热效应和电磁力效应等。建立三维电磁、电磁-热耦合、电磁-热-力耦合等多种典型模型进行仿真分析,通过对电势、电流、温度、电磁场和力等物理量的分析,研究飞机附着点 ... 扩展阅读
The calculation of additional losses in induction machines is a challenging task. In skewed motors, a part of ... 扩展阅读
Snow can exist in a wide range of temperatures. Its behavior changes especially around its melting point. A ... 扩展阅读
A scientific hypothesis states that cryogenic trapped water is just under the surface of lunar soil at the ... 扩展阅读
无线电能传输技术在电力、能源和汽车等领域得到了越来越广泛的关注与应用。目前随着电力和电子产品功能的完善与升级,对电能功率的需求日益增强,无线电能传输技术为匹配这些需求,正朝着大功率和远距离的趋势发展。但是功率的加大 ... 扩展阅读
