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In questa sezione troverete i lavori presentati alle Conferenze mondiali COMSOL. Le presentazioni descrivono ricerche e prodotti innovativi progettati con COMSOL Multiphysics da colleghi di tutto il mondo. I temi delle ricerche presentate abbracciano un'ampia gamma di settori produttivi e aree applicative, in ambito elettrico, meccanico, fluidodinamico e chimico. Lo strumento di Ricerca Rapida vi permetterà di trovare le presentazioni che si riferiscono all'area di vostro interesse.

Visualizza gli articoli presentati alla COMSOL Conference 2020

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金属隔板对谐振腔加热效率及加热均匀性影响研究

王玉玺¹, 杜鸣心 , 熊秀¹
¹西安爱邦电磁技术有限责任公司

在微波加热中，其加热效率及加热均匀性一直是研究的热点问题。本文利用COMSOL Multiphysics多物理场仿真软件的RF模块对一个长方体谐振腔的电磁功率分布进行仿真研究。对谐振腔内环氧树脂材料负载上的电磁功率、功率变异系数以及归一化体积等特征值进行对比分析，研究改变腔内金属隔板的几何形状、尺寸对负载加热效率及加热均匀性的影响。仿真结果表明：在谐振腔内部增加金属板能够提高加热效率，隔板几何的变化会影响加热效率和加热均匀性。最终文中给出了当隔板分别为正方形、圆形时，获取加热效率较高同时加热均匀性较稳定对应的隔板参数设置。研究结论可以为谐振腔的设计提供指导意见。 Per saperne di più

等离子体对称性破缺研究

巨少甲¹, 周晓华¹
¹西京学院、西安市、陕西省、中国

通过COMSOL多物理场仿真软件，采用磁流体近似模型，进行等离子体模型建立时，首先建立二维轴对称几何模型，定义内置材料，设置等离子体内部反应方程式以及边界条件，其次进行网格剖分，最后通过研究和计算，得出仿真结果，从而对一维绘图和二维绘图进行研究。在对等离子体模块进行学习过程中，学习COMSOL案例库中等离子体模块中直流放电“positivecolumn2d”模型和电感耦合等离子体“argongecicp”模型，对自己理解等离子体模块帮助很大。此项关于等离子体破缺性研究的过程中，使用等离子体模块，根据不同的内部气体压强的变化 ... Per saperne di più

基于COMSOL的潘宁离子源优化结构研究

李杰¹, 巨少甲¹
¹西京学院

利用流体力学模型使用COMSOL软件进行潘宁离子源结构的建模，通过该软件试图找出潘宁离子源的最优结构。离子源结构被广泛的应用在各个领域，有着重要的作用，因此找到离子源的最优化结构是值得研究的课题。主要使用COMSOL软件的等离子(plas)模块，添加AC/DC模块多物理场进行电容耦合计算，几何模型采用二维轴对称来构建离子源结构。使用COMSOL建立并模拟潘宁离子源的操作步骤主要是以下部分：1，先建立离子源的几何模型，通过手动一步一步绘制或者通过导入模型都可以达到一致的效果。2，设置材料。根据潘宁离子源的实际情况对先绘制的几何模型的各个部分进行材料给定，包括 ... Per saperne di più

铺设防雷金属网的CFRP-金属紧固件连接结构雷击直接效应研究

罗洋¹, 段雁超¹
¹上海量维信息科技有限公司西安分公司

随着碳纤维增强复合材料(CFRP)在航空等领域的应用规模逐渐扩大，其低电导率带来的雷击风险得到广泛关注，CFRP雷击防护设计已成为研究热点，而雷电环境多理场仿真技术也在CFRP雷击防护设计中逐步发挥作用。目前，针对含雷击防护（如铺设防雷金属网）的CFRP平板结构雷击直接效应仿真研究已有一定成果，但是，对于铺设防雷金属网的CFRP-金属紧固件连接结构的雷击仿真鲜有研究。本研究以铺设防雷金属网的CFRP-金属紧固件连接结构为研究对象，借助COMSOL Multiphysics重点分析了连接结构遭受雷击时的电-热多物理场效应。 ... Per saperne di più

亥姆霍兹线圈的计算与建模

张智祥¹
¹莱姆电子（中国）有限公司工业研发部

该案例用于亥姆霍兹线圈的设计与计算。通过将实际亥姆霍兹线圈的设计参数，如半径，线匝数，绕线宽度，绕线厚度等信息导入到该案例，并导入驱动电流，可以得到磁场的分部况。 Per saperne di più

Ferrofluid Mixing in Double-Layer Microfluidic Device with Microscale Magnet

R. Zhou¹, A. N. Surendran¹
¹Purdue University Northwest, Hammond, IN, USA

Microfluidics-based mixing has been widely used in various areas such as chemical engineering, biomedical engineering and materials science. The micromixer can be strategies into two categories as passive and active method depending on the mixing principle. Magnetic mixing integrated ... Per saperne di più

Large-Scale Electrophoretic Fractionation of Rare Earths

C. Ivory¹
¹Washington State University, Pullman, WA, USA

My research group began applying microchip electrophoresis to fractionation of the rare earths more than a decade ago. The electrophoretic method we applied at microscale was isotachophoresis, which has the ability to quickly concentrate samples by several orders of magnitude while ... Per saperne di più

Solving a Ceramic to Metal Seal Breakdown Problem Using Electric Field Modeling

D. McCormick¹
¹Baker-Hughes, Twinsburg, OH, USA

In the manufacture of radiation detectors, high voltage bias is often required. Since the detector is housed inside a sealed enclosure a ceramic to metal seal is used to feed this bias voltage to the detector as well as providing connections for the resulting pulse output from the ... Per saperne di più

Finite Element Modeling of an AlGaN/GaN Based VOC Sensor Using COMSOL®

B. Uppalapati¹, G. Koley¹, A. Kota²
¹Clemson University, Clemson, SC, USA
²University of Dayton, Dayton, OH, USA

Volatile organic compounds (VOCs) are a large group of chemicals that can be found in many products that we use to build and maintain our homes. Some of the VOCs such as benzene, formaldehyde, ethylene glycol, etc. can be found in our everyday life in the form of paints, cleaning agents, ... Per saperne di più

Simulating a Photothermal Elastic Capsule as a Drug Delivery Device

J. Vélez-Cordero¹, J. D. López Lugo², R. P. Domínguez², J. A. Benítez Martínez², J. H. Cordero², F. M. Sánchez Arévalo²
¹Cátedras Conacyt-Physics Institute, Universidad Autónoma de San Luis Potosí
²Instituto de Investigaciones en Materiales, Universidad Nacional Autónoma de México

Our group developed an experimental millimetric capsule intended to release chemicals or drugs. The delivery mechanism of such device relies on the thermal expansion of carbon-elastomer composites which deform upon irradiation of light supplied by a Laser diode through an optical fiber. ... Per saperne di più

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