中文名: 多物理场耦合分析软件
英文名: COMSOL Multiphysics
资源格式: 光盘镜像
版本: v4.0 MULTIPLATFORM
发行时间: 2010年
制作发行: COMSOL AB.
地区: 瑞典
语言: 英文
简介:
语言:英语
网址:http://www.comsol.com/products/multiphysics/
类别:多物理场耦合分析
COMSOL Multiphysics是一款大型的高级数值仿真软件。广泛应用于各个领域的科学研究以及工程计算,被当今世界科学家称为“第一款真正的任意多物理场直接耦合分析软件”。模拟科学和工程领域的各种物理过程,COMSOL Multiphysics以高效的计算性能和杰出的多场双向直接耦合分析能力实现了高度精确的数值仿真。
COMSOL公司于1986 年在瑞典成立,目前已在全球多个国家和地区成立分公司及办事机构。 COMSOL Multiphysics起源于MATLAB的Toolbox,最初命名为Toolbox 1.0。后来改名为Femlab 1.0(FEM为有限元,LAB是取自于Matlab),这个名字也一直沿用到Femlab 3.1。从2003年3.2a版本开始,正式命名为COMSOL Multiphysics。
心脏内部起搏点电极附近电流分布
COMSOL Multiphysics以其独特的软件设计理念,成功地实现了任意多物理场、直接、双向实时耦合,在全球领先的数值仿真领域里得到广泛的应用。
在全球各著名高校,COMSOL Multiphysic已经成为教授有限元方法以及多物理场耦合分析的标准工具,在全球500强企业中,COMSOL Multiphysic被视作提升核心竞争力,增强创新能力,加速研发的重要工具。
2006年 COMSOL Multiphysics再次被NASA技术杂志选为"本年度最佳上榜产品", NASA技术杂志主编点评到,"当选为 NASA科学家所选出的年度最佳CAE产品的优胜者,表明COMSOL Multiphysics是对工程领域最有价值和意义的产品。"
COMSOL Multiphysics 4.0版本的亮点
1、全新的COMSOL Desktop提供简洁的操作界面,对建模过程的控制和组织更加的简单和方便。
2、模型创建工具可以快速创建模型、求解和可视化后处理,快速访问模型的每一个设置。
3、扩展CAD协同功能:
o LiveLink™ for Pro/ENGINEER®
o LiveLink™ for SolidWorks®
o LiveLink™ for Autodesk® Inventor®
4、扩展CAD导入模块对 Parasolid® 的支持,CAD导入过程中可以对3D几何模型进行操作和修补。
5、支持多参数、多维度实体几何参数扫描。
6、新增求解器:
o 用于频率响应分析和时域分析的模式求解器(常用于结构和声学仿真)。
o 用于电磁场时谐分析的AWE求解器。
o 预定义分析组合:非线性频率响应求解器(常用于小波分析和预应力结构分析)。
o 用于参数评估的非线性最小二乘法求解器。
o 用于集群计算的MUMPS和SPOOLES直接求解器。
7、求解器设置、求解器序列、网格设置和结果可视化等功能得到优化。
8、用户可以对仿真结果多个特征同时进行显示。
9、支持Windows Compute Cluster Server 2003, Windows HPC Server 2008和Linux集群系统。
The COMSOL Multiphysics simulation environment facilitates all steps in the modeling process - defining your geometry, meshing, specifying your physics, solving, and then visualizing your results.Model set-up is quick, thanks to a number of predefined physics interfaces for applications ranging from fluid flow and heat transfer to structural mechanics and electromagnetic analyses. Material properties, source terms and boundary conditions can all be arbitrary functions of the dependent variables. Predefined multiphysics-application templates solve many common problem types. You also have the option of choosing different physics and defining the interdependencies yourself. Or you can specify your own partial differential equations (PDEs) and link them with other equations and physics. COMSOL Multiphysics operates as the primary tool for all your future modeling needs. Its versatility, flexibility and usability can easily be extended with its add-on modules unlike any other FEA Software solution.
AC/DC Module
The AC/DC Module sets the stage for modeling the performance of capacitors, inductors, motors, and microsensors. Although these devices are principally characterized by electromagnetics, they are also influenced by other types of physics. Thermal effects, for instance, can change electrical properties of materials, while electromechanical deflections and vibrations in generators need to be fully understood during any design process.
The capabilities of the AC/DC Module span electrostatics, magnetostatics, and electromagnetic quasi-statics with unlimited couplings to other physics.
When considering your electrical components as part of a larger system, the AC/DC Module provides an interface with SPICE circuit lists where you choose circuit elements for further 2D or 3D FEA modeling. Then you can take your analysis beyond the conventional by running a single simulation of a mixed system of lumped and high-fidelity models.
Acoustics Module
The Acoustics Module is a world-class solution to all your acoustics modeling needs. Easy-to-use application modes provide the tools to model acoustic wave propagation in air, water, other fluids—and even solids.
It is designed specifically for those who work in classical acoustics with devices that produce, measure, and utilize acoustic waves. Just a few application areas from the audio industry include speakers, microphones, and hearing aids, while those for noise control can address muffler design, sound barriers, and building acoustics.
The modeling of acoustics-structure interaction is easily done with the Acoustics Module. This capability is particularly attractive for appli-cations such as the design of sonar transducers in medical and non-destructive testing applications as well as those used for noise and vibration analyses.
This module also features a special interface for modeling aeroacoustics, which is especially useful for the control of aircraft engine noise. In addition, its general multiphysics ability enhances classical acoustics with further accuracy.
Batteries & Fuel Cells Module
The Batteries and Fuel Cells Module is a specilized tool designed to model all types of battery and fuel cell applications. The Module features tailored interfaces to study primary, secondary and tertiary current density distributions in electrochemical cells. The cell can contain solid or porous electrodes and the dilute or concentrated electrolytes. Additionally multiphysics couplings such as heat transfer, fluid flow and electrochemical reactions can be added through the multiphysics capabilities of COMSOL.
Chemical Engineering Module
Based on the classic work Transport Phenomena by Bird, Stewart, and Lightfoot, the Chemical Engineering Module is the perfect tool for process-related modeling. It is specifically designed to easily couple transport phenomena— computational fluid dynamics (CFD) or mass and energy transport—to chemical reaction kinetics.
We have optimized the module for the modeling of reactors, filtration and separation units, heat exchangers, and other equipment common in the chemical industry. Other modeling interfaces account for electrochemical systems (such as fuel cells) and applications where electric fields influence transport, such as electrophoresis and electrokinetic flow.
The Chemical Engineering Module melds seamlessly with the power of COMSOL Multiphysics for multiphysics and equation-based modeling. This latter feature allows for the inclusion of arbitrary expressions, functions and source terms in the transport equations.
Earth Science Module
Ready-made interfaces make it easy to model single and coupled processes related to subsurface flow. The module is well suited for studies in oil and gas flow in porous media, the modeling of groundwater flow, and the spread of pollution through soil.
A variety of specialized interfaces are available for easy application of the Richards and Navier-Stokes equations, Darcy’s law, and Brinkman’s extension of Darcy’s law. In addition, the module handles the transport and reaction of solutes as well as heat transport in porous media.
The Earth Science Module provides examples to demonstrate multiphysics modeling of geophysical and environmental problems with arbitrary couplings to other application modes in COMSOL Multiphysics®, such as solid deformation and electromagnetics.
CFD Module
The CFD module is tailored for advanced flow simulations. Ready-to-use interfaces let you model laminar and turbulent flows in single or multiple phases. Functionality for treating coupled free and porous media flow, stirred vessels, and fluid structure interaction are also included.
The ready coupling of heat and mass transport to fluid flow enables modeling of a wide range of industrial applications such as heat exchangers, turbines, seperations units, and ventilation systems.
Together with COMSOL Multiphysics, the CFD Module takes flow simulations to a new level, allowing for arbitrary coupling to physics interfaces describing other physical phenomena, such as structural mechanics, electromagnetics, or even user defined transport equations. This allows for effortless modeling of any Multiphysics application involving fluid flow.
MEMS Module
The MEMS Module addresses design issues that arise in the micro-world. It models physical phenomena in resonators, actuators, and sensors, piezoelectric and plus microfluidic and small piezoelectric devices.
Most MEMS applications are multiphysics by their very nature and usually include electromagnetic-structural, thermal-structural, fluidstructure (FSI), or electromagnetic-fluid interactions. To this end, the MEMS Module provides equations and settings optimizedan easy to use environment for the single- and coupled physics modeling that these interactions may require.
The module includes analyses Analysis types including in the stationary, and transient, quasi-static, parametric domains as well as eigenfrequency, parametric, quasi-static and frequency-response analysescan be performed. An electric circuit simulation feature let you extract lumped parameter to connect MEMS models to SPICE netlist.
Structural Mechanics Module
The Structural Mechanics Module is dedicated to the analysis of components and subsystems where it is necessary to evaluate deformations under loads. It also contains special physics interfaces for the modeling of shells, beams and trusses.
Physics interfaces in this module solve stationary and dynamic models, including nonlinear problems, and let you perform eigenfrequency (i.e. modal), parametric, quasi-static and frequency-response analyses. 3D solid as well as 2D plane stress, plane strain and axisymmetric analyses allow the specification of elastoplastic and hyperelastic material laws, large deformations, contact, piezoelectric analysis, and thermoelasticity.
The Structural Mechanics Module works in tandem with COMSOL Multiphysics and the other discipline-specific modules to couple structural analysis into any multiphysics phenomenon.
Reaction Engineering Module
The Reaction Engineering Module uses reaction formulas to create models of reacting systems. It solves the material and energy balances for such systems, including reaction kinetics, where the composition and temperature vary only with time.
For space-dependent models, the Reaction Engineering Module offers a direct synchronization to the Chemical Engineering Module, with which you create 2D and 3D models. Included in these models are kinetic expressions for the reacting system, which are automatically or manually defined in the Reaction Engineering Module. You also have access to a variety of thermodynamic and physical property data through the CHEMKIN file import feature, and the CAPE-OPEN interface.
Regardless of the system–whether drug-delivery to a nerve or a CVD reactor in the semiconductor industry–this suite of products gives you unparalleled power in formulating and solving reaction engineering models.
Plasma Module
Low temperature plasmas represent the amalgamation of fluid mechanics, reaction engineering, physical kinetics, heat transfer, mass transfer and electromagnetics. The Plasma Module is a specialized tool for modeling non-equilibrium discharges which occur in a wide range of engineering disciplines. There are specialized modeling interfaces for the most common types of plasma reactors including Inductively coupled plasmas (ICP), DC discharges, Wave heated discharges (Microwave plasmas) and Capacitively coupled plasmas (CCP).
Modeling the interaction between the plasma and an external circuit is an important part of understanding the overall characteristics of a discharge. The Plasma Module provides tools to add circuit elements directly to a 1D, 2D or 3D model, or import an existing SPICE netlist into the model. The plasma chemistry is specified either by loading in sets of collision cross sections from a file, or by adding reactions and species to the model builder. The complicated coupling between the different physics which constitute a plasma is automatically handled by the physics interfaces.
Heat Transfer Module
Problems involving any combination of conduction, convection, and radiation are solved easily with the Heat Transfer Module. It finds extensive use in systems that involve the generation and flow of heat in any form.
A variety of specialized modeling interfaces are available for different formulations and applications such as surface-to-surface radiation, non-isothermal flow, heat transfer in structures made of thin layers and shells, and heat transfer in biological tissue.
The Heat Transfer Module allows for arbitrary couplings to other application modes in COMSOL Multiphysics as well as other add on modules.
RF Module
Modeling in RF, microwave and optical engineering requires resolving the scale of the transmitting device while capturing effects many orders of magnitude greater. The RF Module offers you the tools to meet this challenge, including perfectly matched layers and the best solvers available.
As a result, you can easily model antennas, waveguides, microwave and optical components. The RF Module completes the modeling experience by providing advanced post-processing features such as S-parameter computation and far-field analysis.
Taken together with COMSOL’s unsurpassed ability to couple to other physics, you have the industry’s leading multiphysics solution for electromagnetic waves.
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█ ░░▒▓▌ ░░░░░▒▒▒▒▒▓▓▓▓▓ THE SPYRAL GALAXY ▓▓▓▓▓▒▒▒▒▒░░░░░ ▐▓▒░░ █
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█▓▓▓▒▒▒▒░░█▌▒▌ COMSOL Multiphysics v4.0 ▐▒▐█░░▒▒▒▒▓▓▓█
█▒▒▒▒░░░▒▒█▌▒▌ (c) Comsol ▐▒▐█▒▒░░░▒▒▒▒█
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█░▌ Type ..... : Physics Simulation ▐░█
█░▌ Date ..... : 05/2010 ▐░█
█░▌ Size ..... : 63x50MB ▐░█
█░▌ OS ....... : Multiplatform ▐░█
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█░▌ ░░░▒▒█▌▒▒▒████████████▓░ [ RELEASE NOTES ] ░▓████████████▒▒▒▐█▒▒░░░░ ▐░█
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The COMSOL Multiphysics simulation environment facilitates all steps in
the modeling process - defining your geometry, meshing, specifying
your physics, solving, and then visualizing your results.
Model set-up is quick, thanks to a number of predefined physics
interfaces for applications ranging from fluid flow and heat transfer to
structural mechanics and electromagnetic analyses. Material properties,
source terms and boundary conditions can all be arbitrary functions of
the dependent variables.
Predefined multiphysics-application templates solve many common problem
types. You also have the option of choosing different physics and
defining the interdependencies yourself. Or you can specify your own
partial differential equations (PDEs) and link them with other equations
and physics.
COMSOL Multiphysics operates as the primary tool for all your future
modeling needs. Its versatility, flexibility and usability can easily be
extended with its add-on modules unlike any other FEA Software solution.
http://www.comsol.com/products/multiphysics/
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█░▌ Unrar, burn/mount, install. Check /SPYRAL ▐░█
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