See How Modeling and Simulation Is Used Across Industries
Multiphysics modeling and simulation drives innovation across industries and academia — as is evidenced by the many uses showcased in the technical papers and posters presented by engineers, researchers, and scientists at the COMSOL Conference each year.
Draw inspiration from the recent proceedings collected below, or, to find a specific presentation or filter by application area or conference year/location, use the Quick Search tool.
View the COMSOL Conference 2025 Collection
近年来,三维系统级封装技术逐渐成为人们的关注焦点,是下一代集成电路封装设计最有发展潜力的实现方案。然而,热管理是系统级封装技术需解决的关键问题。图1是典型的系统级封装结构,包含堆叠芯片、硅通孔、封装基板、热界面材料以及多层凸点结构。若对该结构的所有细节进行建模,将会消耗巨大的计算资源,导致分析效率非常低下。因此,本论文将封装中的硅通孔层以及凸点层等复杂结构进行等效处理,提取它们在水平和垂直方向上的等效热导率以及等效比热容、等效密度等参数。例如,在建模过程中,采用 COMSOL Multiphysics® 传热模块对硅通孔层的水平方向等效热导率进行提取,边界设置如图2所示 ... Read More
复合型电磁轨道发射装置是轨道型电磁发射器研究的一个重要方向,复合型轨道是对轨道的内表面添加保护层,由于电磁轨道在发射时存在复杂的热量变换,轨道表面材料在吸收这些热量之后会发生脱落、气化甚至是电离等现象。为减弱在发射过程中的烧蚀现象,在轨道的表面添加保护层,使轨道内表面材料具有强的耐热性能,并且强度、韧性较好。运用 COMSOL Multiphysics® 软件仿真模拟复合轨道在发射过程中的温度、电流、应力和应变的变化。 Read More
引言:电容成像检测技术是一种新型的无损检测技术,它是利用一对共面电极板之间产生的准静态边缘电场对缺陷进行检测,电容成像探头的形状是成像性能的关键因素,据此设计了点对点三角形探头(A型)、边对边三角形探头(B型)、正方形探头(C型)和圆形探头(D型),如图1所示,并利用 COMSOL Multiphysics® 对它们的性能进行分析。 计算方法:通过 COMSOL Multiphysics 软件的 AC/DC 模块对电容成像探头的电容值、电势分布和灵敏度进行研究。仿真中用到了“静电(es)”接口。 结果:仿真得到了四种电容成像探头的电容值(图2)、电势分布图(图3 ... Read More
定量分析生物颗粒形态的变化可以为疾病诊断提供依据。例如血红细胞形态的变化常常会伴随有相应的血液疾病[1],细胞的癌变常常伴随有细胞核形态的变化[2]等等。无标记的光学显微成像技术已经可以对生物颗粒的尺度和形状进行直接测量。光声显微成像技术 (PAM) 利用生物颗粒固有的吸光本领,已经可以对单个生物颗粒(如细胞和细胞器)进行成像[3]。 最近,光声流式仪(the photoacoustic flow-cytometry)已经实现了对单个生物颗粒进行连续检测[4]。然而,为了在大量的生物颗粒中快速检测生物颗粒的形貌,最好的方法是并非对其进行直接成像,而是采用高频光声显微技术 ... Read More
电阻抗成像(EIT)技术由于分辨率较低受到专家学者的诟病,而EIT与超声技术两者的结合以及 EIT 与磁共振技术两者的结合可以提高成像的分辨率,但仍分别存在电极射频屏蔽效应以及分辨率难以进一步提高等问题。本文将磁共振成像技术和磁声电技术优势互补,采用低频振动进行激励,提出了一种新的动电成像方法,并采用 COMSOL 软件建立了二维仿真模型,使用 PDE 模式对动电阻抗成像的正问题进行了仿真研究,利用 COMSOL 的仿真结果结合Matlab软件进行了反演,实验结果可以反映出仿真模型内部的电导率分布,能够解决上述电阻抗成像结合技术存在的问题。 Read More
The remarkable power scaling of high power fiber lasers over the past years has become more and more challenging, because the effects of transverse mode instability (TMI) and photodarkening (PD) of the fiber are limiting the effective output power of typical industrial fiber lasers. The ... Read More
Electrostatic precipitation is an extremely efficient way of filtering fine particles from the airstream. Electrostatic precipitators (ESPs) can control airborne emission without significantly slowing down the rate of flow, because of the low pressure drop across this type of filters. A ... Read More
Radiofrequency ablation (RFA) is a minimally invasive procedure that can be used to treat chronic pain. Radiofrequency (RF) energy is emitted through a probe that is placed near a sensory nerve in the region of pain. The RF energy excites the nearby ions in the tissue causing them to ... Read More
Deformation prediction is an important part of the structure stability analysis. However, the deformation of bank protection structure which is affected by many factors, such as structural stiffness, earth pressure and hydrostatic pressure. It contains a complex mechanical process, which ... Read More
Thermoelectric generators (TEGs) which convert heat into electrical energy due to Seebeck effect, have recently attracted a great attention as green and sustainable energy sources. One of the challenges in the field of thermoelectric devices is the design optimization in order to make ... Read More