Articles by "Midas"

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Midas NFX 2018 R1 [Size: 2.18 GB] ... MIDAS Information Technology Co. Ltd. (MIDAS IT) has released update of MIDAS NFX 2016, is an integrated finite element analysis program for structural, CFD simulation and optimization design. It provides efficient and accurate analysis together with an integrated pre-post processor, developed by senior mechanical engineers with over 20 years of CAE software development expertise. midasNFX provides a high-performance finite element pre-processor that provides a highly interactive and visual environment to analyze product design performance. midasNFX presents the users with an advanced suite of easy-to-use tools to build and edit CAE models. For 2D and 3D model creation, The users have access to a variety of mesh-generation capabilities, as well as the midasNFX‘s powerful auto-meshing functions. midasNFX provides total solutions from high-end structural analysis functions such as contact analysis, nonlinear analysis, explicit dynamic analysis and fatigue analysis in addition to high-end fluid analysis functions such as moving mesh, free surface analysis and mass transfer analysis.

GTS NX is a comprehensive finite element analysis software package that is equipped to handle the entire range of geotechnical design applications including deep foundations, excavations, complex tunnel systems, seepage analysis, consolidation analysis, embankment design, dynamic and slope stability analysis. GTS NX also has an advanced user friendly modeling platform that enables unmatched levels of precision and efficiency. As the next generation geotechnical analysis software, midas GTS NX features the newest development in cutting-edge computer graphics and analysis technology. GTS NX fully supports the latest 64-bit OS Graphic user interface. The intuitive interface will enable new users to easily integrate the software in their work process. The fast analysis speed, outstanding graphics, and output capabilities will provide users with a new and advanced level of geotechnical design. Linear static analysis assumes ground and rock materials to be linear-elastic materials and uses static analysis to determine the behavioral characteristics when loading is applied. Ground materials only display linear-elastic properties in the early stages of loading, where only a small strain is generated. However, because Linear-elastic analysis does not consider failure and idealizes the stress-strain relationship linearly,it is widely used for simple analysis, such as identifying the stress distribution or concentration in the in-situ ground. In a broad sense, linear behavior can be viewed as a special form of nonlinear behavior but because linear analysis is convenient and intuitive, linear static analysis is categorized as a separate analysis type. Linear analysis, including Linear dynamic analysis, utilizes the elastic behavior of a defined material for analysis. Also, the non-linear behavior (tension only, compression only and non-linear elastic behavior) of elastic link elements or truss elements are ignored and the elements are used in the analysis as elastic bodies. Consequently, it is useful to use Linear static analysis to observe the approximate behavior of the ground, to organize the initial stage conditions of the construction stage or to conduct tunnel lining analysis. Particularly, Linear static analysis does not require recursive calculations and hence, it has a short calculation time. GTS NX considers pore pressure in Linear-static analysis and drained and undrained conditions can be assigned to elastic materials for analysis. All physical phenomena includes non-linearity. Ground or structural behaviors are not an exception. Non-linear static analysis is used to simulate the behavior of ground considering such non-linearity, when the change with time is small and can be ignored. GTS NX considers the following non-linearity. Non-linearity of material : This occurs when the stress-strain relationship is non-linear. Most ground materials have this non-linearity. Geometric non-linearity: If the displacement-strain relationship is non-linear, the linear assumption is no longer applicable when the displacement is large, or the rotational deformation is large. Non-linearity of load and boundary: Non-linearity that includes the non-linear behavior at an interface, or  non-linearity caused by the direction change of a load due to strain, caused by forces such as the follower force. GTS NX can consider all non-linearity mentioned above in analysis. Non-linear analysis can take a long time for complex non-linear systems because repeated calculations are conducted. Hence for the practicality, considering appropriate non-linearity can result in analysis results that simulate non-linear behavior, while maintaining the accuracy with little computational cost.

Midas NFX 2016 R1 [Size: 1.84 GB] ... MidasNFX is an integrated finite element analysis program for structural, CFD simulation and optimization design. It provides efficient and accurate analysis together with an integrated pre-post processor, developed by senior mechanical engineers with over 20 years of CAE software development expertise. Within its highly interactive and visual environment, users have access to a variety of practical tools which can help to build, edit and manipulate CAE models. For 2D and 3D FE model creation, the users are free to use midas NFX’s powerful auto-meshers as well as extensive manual meshing tools. Midas NFX provides total solutions from high-end structural analysis functions such as contact analysis, nonlinear analysis, implicit / explicit dynamic analysis and fatigue analysis in addition to high-end fluid analysis functions such as moving mesh, free surface analysis and mass transfer analysis. Additionally midas NFX provides practical topology and size optimization considering static/dynamic analyses and manufacturing processes. Midas NFX offers multi-disciplinary analysis features, which cover structural analysis, CFD analysis and topology optimization. For structural analysis, midas NFX provides total solutions to general analysis types such as linear, modal and heat transfer analysis, as well as advanced analysis features such as contact, nonlinear and explicit dynamic analysis. CFD analysis allows comprehensive and accurate simulations of heat transfer and fluid flows, associated with the specialized functions such as moving mesh and free surface. Structural analysis can also be coupled with CFD simulations.

Midas Design Plus 2015 v1.1 [Size: 133 MB] ... Midas Design+ is a collection of handy structural component design and detailing tools, which are easy to use and speed up the day-to-day design process. midas Design+ is developed to be simple, fast and accurate.

It caters to the design needs of the engineers for quick and efficient design of various building components such as beams, columns, stair case, steel connections, slabs, basement walls, footings etc. After obtaining the design results and the detailing, the engineers can also obtain the AUTOCAD drawings for the designed items. The user can easily perform the parametric study by easily modifying the design parameters and cross section.

midas Design+ combines the design and drawing generation for all the members be it a beam, column, slab or staircase, midas Design+ can design it based on the latest ACI code and produce the AutoCAD drawings for the same. Its simple GUI eases the process of input of loads and design parameters thus making it a perfect software for structural and peripheral design.

Midas Gen 2015 v1.1 [Size: 793 MB] ... Integrated Solution System for Building and General Structures: With its intuitive user interface, contemporary computer graphics and powerful solver, midas Gen enables practicing engineers to readily perform structural analysis and design for conventional and complex structures. midas Gen utilizes a diverse range of specialty finite element analysis functions as well as modern theories of structural analysis to render accurate and practical results. These features contribute to higher and unprecedented standards of convenience, efficiency, versatility and productivity for structural design. Construction Stage Analysis: Midas Gen provides Construction Stage Analysis capability, which reflects the time dependent material properties of concrete such as modulus of elasticity, creep and shrinkage. Floor Vibration Analysis: Serviceability of floor structures can be evaluated by dynamic time history analyses. midas Gen provides a number of time history forcing functions for walking loads for floor vibration, including Baumann, IABSE, AIJ and Allen & Rainer.

Pushover Analysis: Pushover analysis of 3-dimensional frame structures for performance based designs can be done for reinforced concrete, structural steel and steel-concrete composite sections. Hinge connections are essential to pushover analysis in order to simulate displacement. Various hinge types for trusses, beams, columns, walls, and springs. Multi-linear hinges and user-defined hinges can be defined as well. Hinge displacement control and force control features enable you to model force and displacement incrementally. This makes it possible to calculate the reactions of the structure over the course of several sequential steps. This capability is essential in pushover analysis since displacement due to seismic loading occurs incrementally and must be modeled as such in order to create an accurate simulation. The program also checks for key design criteria such as drift limits, deformation, and strength capacity. This function saves you the time and effort of having to check these design limits yourself. Inelastic Time History Analysis: midas Gen's seismic analysis functionality also includes highly detailed time history analysis for complex, high-end projects. For the seismic design and assessment of a structure, midas Gen offers a wide range of hysteresis hinge models such as kinematic hardening, Takeda, slip, etc. in the inelastic time history analysis. Hysteretic links have multi-axial response which makes them useful for simulating dynamic loading. Thus they are used to model the energy dissipation which occurs during the analysis. A database of time history records is included so that you can use the parameters of prominent earthquakes in your project area for your analysis. Thus, you will not need to look up the records on your own and input they yourself. However, it is also possible to import your own time history records should you ever have the need. Nonlinear Analysis: midas Gen can handle the nonlinear analysis such as geometric nonlinear and plastic analysis including structural masonry materials. The application of nonlinear analysis includes: Material Nonlinear Analysis (Von-Mises, Tresca, Mohr-Coulomb & Drucker-Prager) + Structural Masonry Analysis + Analysis for finding Unknown Forces by Optimization.

Midas NFX 2015 R1 [Size: 1.64 GB] ... MidasNFX is an integrated finite element analysis program for structural, CFD simulation and optimization design. It provides efficient and accurate analysis together with an integrated pre-post processor, developed by senior mechanical engineers with over 20 years of CAE software development expertise. Within its highly interactive and visual environment, users have access to a variety of practical tools which can help to build, edit and manipulate CAE models. For 2D and 3D FE model creation, the users are free to use midas NFX’s powerful auto-meshers as well as extensive manual meshing tools. Midas NFX provides total solutions from high-end structural analysis functions such as contact analysis, nonlinear analysis, implicit / explicit dynamic analysis and fatigue analysis in addition to high-end fluid analysis functions such as moving mesh, free surface analysis and mass transfer analysis. Additionally midas NFX provides practical topology and size optimization considering static/dynamic analyses and manufacturing processes.

CAD geometry can be directly imported into midas NFX from all the major CAD programs. The data translation is fluent, efficient and with minimum loss. Supported formats include: CATIA, Inventor, Pro-E/Creo, Solidworks, Solid Edge, Parasolid, Unigraphics, ACIS, STEP, IGES, etc. Midas NFX offers multi-disciplinary analysis features, which cover structural analysis, CFD analysis and topology optimization. For structural analysis, midas NFX provides total solutions to general analysis types such as linear, modal and heat transfer analysis, as well as advanced analysis features such as contact, nonlinear and explicit dynamic analysis. CFD analysis allows comprehensive and accurate simulations of heat transfer and fluid flows, associated with the specialized functions such as moving mesh and free surface. Structural analysis can also be coupled with CFD simulations.

SoilWorks 2013 v2.1 [Size: N/A MB] ... Geotechnical Solutions for Practical Design: It provides total solutions to geotechnical-structural problems related to the practical design of Tunnels, Slopes, Rock Slope with Stereo-Graphic Analysis, Soft Ground, Foundations, Excavations, Seepage and dynamic analysis. The user-friendly and practice-friendly work environment allows the geotechnical and structural engineers to produce highly reliable results in conjunction with rational design and high quality deliverables. Unlike commonly available existing software, SoilWorks provides the groundbreaking concept of modeling, analysis, compilation and presentation of results and report generation using the latest technology in software development for the practicing engineers. The engineers will benefit from being able to analyze various cases simultaneously, check design errors and escape from repetitive tasks in the design process.

7 SMART Automated Features for fast modeling, analysis and results extraction: Smart Modeling: CAD based Operating Environment - Smart Surface: Auto-generation of Surfaces for enclosed domains - Smart Mesh: Auto-generation of mesh - Smart Support: Auto-generation of boundary conditions - Smart Technical Review: Technical Review to prevent Analysis errors - Smart Analysis: Robust Parametric Analysis Capability and Data interface between Modules - Smart Results: Auto-generation of high quality reports. Modules: Foundation Module - Ground Module - Foundation Module - Slope Module - Rock Module - Soft Ground Module - Dynamic Module - Seepage Module. Project Applications: Tunnels with Temporary Structures - Subway Tunnel Construction with Adjacent Structures & Sewer Pipes - Reinforcement for Cut Slopes - Abutment Pile Foundation on Slopes - Stability of Piled Raft Foundation - Group Pile Behavior - Settlement in Soft Ground - Dams/Levees with Cut-off Wall.

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