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SimSolid是建模和高级仿真领域中工程和专业软件的名称。该产品中使用的技术使您可以在短时间内完全创建所需的模型。您也可以使用该软件来分析设计的模型,以达到最佳质量。该产品的独特之处在于其极高的处理速度,您可以在几分钟内准备好模型,从而使其与其他类似软件区别开来。SimSolid的创建者还竭尽全力推出了高度集成的产品。使用此软件时,您将能够上载和编辑在该软件中可能已在软件中完成的所有项目和任务,例如Onshape,SOLIDWORKS,Autodesk Fusion 360和CAD系统。并分析它们。它还能够从任何CAD系统读取标准STL文件。对CATIA,NX,Creo,SOLIDWORKS,Inventor和Solid Edge的支持以及一些异常的STEP,ACIS和Parasolid格式是该产品的另一个优势。该产品的功能(其中一些功能已经提到)包括高操作精度,快速处理速度,效率和完整性。所有这些功能一起使Altair Engineering Group在建模,仿真和分析领域成为强大而高效的产品。 通过在数分钟内对功能齐全的CAD组件执行结构分析,SimSolid是为设计师,工程师和分析师提供的改变游戏规则的仿真技术。它消除了几何图形的准备和网格划分:这是在常规结构仿真中执行的两个最耗时,专业知识广泛且易于出错的任务。 可以在实际条件下快速模拟多种设计方案。可以使用任何常见格式的早期CAD模型。 SimSolid的不精确几何公差意味着,与CAD嵌入的仿真工具不同,无需在分析设计之前简化复杂的几何。为什么选择SimSolid?消除几何简化SimSolid的独特技术完全消除了几何图形的简化和网格划分:这两个最耗时,专业知识丰富且易于出错的任务是在传统结构分析中完成的。分析复杂和大型装配体SimSolid旨在分析复杂的零件或大型组件,而传统的FEA则不可行,它擅长面对具有间隙和重叠几何形状的参差不齐的接触表面。在数分钟内获得结果SimSolid速度很快,解决方案时间通常在标准PC上以秒至分钟为单位,从而可以快速,准确地比较多个设计方案。主要特点可用的解决方案线性静态,模态,热,耦合热应力,材料非线性,几何非线性,瞬态动力学(时间,频率和随机响应)支持的连接固定螺栓和滑动螺栓,虚拟连接器,焊缝(点焊,激光焊和圆角焊),铆钉边界条件不动,滑动,力,压力,重力,热,惯性,惯性释放,静液压,轴承,铰链和远程载荷CAD连接性读取所有常见的CAD文件格式,包括:CATIA,NX,PTC / Creo,Inventor,Fusion 360,SOLIDWORKS,Onshape,JT,STEP,VDA,Parasolid,ACIS,PLMXML,CGR,STL结果类型等高线图,包括位移,应力和应变,变形的形状动画,最大/最小标签,点探针,XY图,反作用力/接触力,螺栓/螺母力,点焊力,频率和模式形状,模态参与因数,安全系数附加功能刚性零件,螺栓/螺母紧固,模态参与因素 SimSolid软件功能: - 诚信设计,高效效率
- 动态用户界面,简化了用户的工作条件
- 在建模和仿真中使用先进技术
- 能够对设计的模型执行高级分析操作
- 极高的处理速度,大大减少了您的工作时间
- 与各种产品完全兼容,例如Onshape,SOLIDWORKS,Autodesk Fusion 360和CAD系统
- 支持非常规格式,例如STEP,ACIS和Parasolid
- 能够从任何CAD系统读取各种标准STL文件
- The software update release expands on the number of solutions available for designers, engineers, data analysts, IT and HPC professionals, facility managers, and more to drive better decisions and accelerate the pace of innovation. It broadens the scope of the new user experience, enables access to more physics, data analytics, and machine learning, and makes the Altair software delivery method more flexible and accessible.
Altair SimSolid 2020 Release Notes
Highlights of this release include new SimSolid Basic product package, 3D solids seam welds, joints connectors, liquid bodies and distributed mass. Several new static and dynamic result types are available. Updated CAD file readers are provided including an all new reader for the JT file format. In addition, many minor usability improvements have been made. See the feature descriptions below for more details.
New Features
SimSolid Basic product package New from Altair in 2020 is Altair Units, a unified licensing system that gives access to every Altair product in varying capability product bundles. To support this, a new product, SimSolid Basic, in now offered in the Mechanical Designer product bundle. SimSolid Basic provides all modeling functions but is limited to linear statics and modal analysis only.
3D solid seam welds Seam welds are now modeled as 3D solids. This replaces the previous connection based approach. Welds are defined by section size and length along the edge. Simple trapezoidal shapes are used to represent the welds. Weld material properties are taken from the adjacent parts.
Rotating-sliding hinge A new remote support is now available. It allows rotation and sliding along a hinge axis between 1 or more faces and ground. This is found as a third option in the virtual connectors Remote support dialog.
Joints A new set of joint virtual connectors are now available. Virtual joints can be used to connect faces/spots that can have relative motion in the form of displacements and/or rotations. The following joints types are available:
- Ball – A ball joint allows free rotations in any direction about the joint center, while the translations are fully constrained. - Hinge – A hinge joint only allows rotations about the joint axis. The axis is defined by the joint center and a vector. - Cylinder – A cylindrical joint allows rotations about the joint axis and sliding along the axis. The axis is defined by the joint center and a vector. - Linear guide – A linear guide joint only allows sliding along the joint axis. The axis is defined by the joint center and a vector. - Universal – A universal joint allows rotary motion transmission in multiple shafts which are at an angle to each other. The joint works by allowing free rotations along two mutually perpendicular axis while constraining the rotations about the axis. This joint also constraints all the translations. This joint requires definition of a joint center and axis of the both the shafts connected. - Flexible shaft – A flexible shaft joint allows complete rotary motion transmission between the two shafts. The joint works by constraining the rotations about the shaft axes. This joint requires definition of flexible-shaft end coordinates and respective shaft axes.
Note: Virtual joints create perfectly rigid boundaries, stresses along the boundary faces can have local concentrations. It is recommended to create joints between parts locally using spots.
Liquid bodies A new virtual part that represents fluid mass. Adds distributed mass to the structure and, therefore, changes its inertia and dynamics. Mass is determined by the specified fluid density and volume found between the selected faces. The selected faces will represent the wetted surfaces that are in contact with the liquid. The liquid is assumed to be inviscid and incompressible. Sloshing effects are not considered.
Distributed mass A new distributed mass boundary condition is now available for static and dynamic analysis.
Dynamic results New velocity, acceleration and equivalent radiated power (ERP) results available for frequency response analysis.
Mode shape export Mode shapes can now be exported in Universal file (UNV) formatat a given set of datum points using the Pick Info dialog. Datum points can be read in from external comma separated value (CSV) file.
Enhancements/Performance improvements
Harmonic function Inputs for creating harmonic functions in frequency and random response is now contain amplitude, phase and period.
Static animation New in frequency response analysis, deformed shape and static animation of displacement, velocity, and acceleration results is now available for each frequency. New selection by face option. This provides an average of the result value over the selected face. In addition to average values, the total thermal flux and total equivalent radiated power (ERP) are provided
Spots on cylinder Spots in the shape of a circular ring of a specified width on a cylindrical face can now be created. Rig spots can be created on inner or outer cylindrical faces.
Import spots from CSV Circular spots of a specified diameter can now be createdfrom a list of XYZ locations which are read from an external comma separated values (CSV) file.
New JT CAD reader A new JT CAD reader is now available. Performance and robustness have been significantly improved.
Updated CAD import formats The list of supported CAD formats has been updated. JT file support has been extended to release 10.4. Other updates include SOLIDWORKS 2020, Inventor 2020 and NX CR version 1888. The complete list of supported formats and versins is as follows:
Assembly info More information is provided with respect to CAD settings used andgeometry import/connection search time.
Periodic function Dynamic functions can now be set to periodic in time/frequency/PSD function dialog.
Export spot weld reaction forces. Spot weld forces can now be exported in global system.
Info on Spots, spot welds and rivets expanded The Info dialogs for Spots, spot welds and rivetsnow contain more information such as connected parts names.
Resolved Issues - Fixed - The Cancel button on connection search and analysis progress is now more responsive. - Fixed – issues with displacement as base excitation. - Fixed – numerical issues with inertia relief. - Fixed – numerical issues with remote mass. - Fixed – a number of issues with spot weld creation. - Fixed – issues related to adapt for thin solids especially on wired structures. - Fixed – Issues with bonded contact in geometric nonlinear analysis. - Removed – cylindrical coordinate system from general constraints in modes 所需系统 SimSolid系统要求操作系统 Windows 10 Windows 8 / 8.1 Windows 7推荐的硬件 处理器:基于Intel I7计算机;4核(8线程) 内存:8 GB内存 图形:OpenGL兼容图形卡 Altair transforms design and decision making by applying simulation, machine learning and optimization throughout product lifecycles. Our broad portfolio of simulation technology and patented units-based software licensing model enable Simulation-Driven Innovation for our customers. With more than 2,000 employees, Altair is headquartered in Troy, Michigan, USA and operates 71 offices throughout 24 countries. Altair serves more than 5,000 customers across broad industry segments. Product: Altair SimSolidVersion: 2020.0.0 Build 78Supported Architectures: x64Website Home Page : www.altair.comLanguage: englishSystem Requirements: PC *Supported Operating Systems: *Size: 516.8 mb * System Requirements: Platform support and system requirements
The recommended computer configuration is an Intel I7 or I9 or Xeon based computer; 4-cores (8-threads); 16 GB of memory; OpenGL compatible graphics card with OpenGL 3.1 or later; running Microsoft Windows 10 (64-bit only). SimSolid is multi-threaded so more cores are always better. To use the direct document integration to Onshape, you must have either a free or paid Onshape account. There will be a one-time prompt to authorize SimSolid to access your Onshape account. To use the SOLIDWORKS add-in, you must have a 2013 through 2020 version of SOLIDWORKS. 图片 安装指南 阅读Crack文件夹中的Readme.txt文件。 1. Install Altair SimSolid 2020.0.0 Win64 2. Copy "liblmx-altair.dll" to <SimSolid program folder> (at setup by default C:\Program Files\SimSolid\SimSolid ) with overwrite Enjoy
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