midas FEAMidas fea , the name of the software engineering and specialized in the field of highly advanced analysis of nonlinear systems and details.
Midas fea, the name of the software engineering and specialized in the field of highly advanced analysis of nonlinear systems and details. The software you are in is able to analyze nonlinear systems in a very advanced way, considering its advanced technology. Many civil engineers around the world use this product to conduct their own analyzes. It also comes with unique simulation and modeling capabilities that bring you the conditions for modeling.
Advanced Nonlinear and Detail Analysis Systemmidas FEA is state of the art software which defines a new paradigm for advanced nonlinear and detail analysis for civil and structural engineering applications. It is specialized for refined method analysis, which is required by design codes for complex geometry. midas FEA's unique capabilities make it possible to efficiently model complex structures with plate and solid elements instead of using 1D elements to simplify your model. Thus you will be able to perform local analysis for elements and obtain in-depth and highly accurate calculations that are essential for projects that require refined method analyses.
FrameworkThe framework of midas FEA is designed to provide an optimum working environment as a Windows-based program. It permits an easy access to all the functions related to the entire process of input, output and analysis, and also minimizes the mouse movement
Geometry Modelingmidas FEA allows its users to create highly complex geometric data for an accurate FE analysis model with any dimensions or shapes, by providing advanced geometric functions.
A geometry model is fundamentally formed by the interlocking relationship of various geometric entities
Curve Modelingmidas FEA provides various high quality modeling functionality of a Mid-range CAD software.
Curve Creation: Line, Arc, Circle, Rectangle, Polyline, Polygon, Spline, Parabola, Hyperbola, Profile, Tunnel Section, Offset, Tangent Line
Curve Modification: Fillet, Chamfer, Trim, Extend, Trim, Intersect, Merge, Break
Surface Modelingmidas FEA provides surface modeling functions including:Primitive surface:
Cylinder, Cone, Box, Wedge, Sphere, Torus
Surface Patch: Plane Patc, Coons Patch, NURBS Patch, Gird Patch, Vertex Cloud Patch.
Surface Operation: Sew, Fuse, Intersect, Trim, Divide, Imprint
Solid Modelingmidas FEA provides solid modeling functions including:
Primitive solid: Cylinder, Cone, Box, Wedge, Sphere, Torus
Surface Operation: Divide, Trim, Embed
Boolean Operation: Fuse, Cut, Common
Advanced Modelingmidas FEA provides advanced modeling functions including:
Surface / Solid Creation: Extrude, Revolve, Sweep, Loft
Surface / Solid Modification: Fillet, Chamfer, Draft, Offset, Shell, Local Prism
Geometry Manipulation: Translate, Rotate, Scale, Project, Attach, Extract, Explode, Compound
Geometry Check: Various Properties Check, Shape Compatibility Check, Duplication / Common Check.
Frame to Solid WizardFrame to Solid Wizard automatically generates Solid Geometry & Meshby importing Frame Model (*.MCS) from Civil and Gen.
Graphic Displaymidas FEA provides many ways of representing graphical displays for Geometry and Mesh, which allow the user to freely manipulate the model views in the modeling process.
midas FEA permits individual display types for individual geometry objects. A complex model can be displayed in combination of Wireframe, Bounding Box or Transparency types for different objects for easy recognition of even the inside of the geometry.
Similar to the graphic display capabilities for geometry, individual display types can be applied to individual mesh groups.Only some of mesh groups in a complex model can be displayed by the Feature Edge type to clearly verify the shapes of internal mesh groups, group composition.
Virtual Mesh TransformationMesh Sets selected by dragging the mouse can be transformed (translated, rotated, scaled, etc.) to examine the model. This becomes extremely useful to check a complex model.
Flying ViewView points can be dynamically moved to examine the model by mouse dragging.
This capability not only permits viewing the exteriors but also enables us to view the interiors of the model for examining hard-to-reach areas.
Analysis ControlAs a total solution specialized for the detail and nonlinear analysis of structures, midas FEA supports various analysis functions as follows: Linear Static / Construction Stage / Material, Geometry , Interface Nonlinear / Dynamic / Heat Transfer / Heat of Hydration / Contact / Fatigue Analysis
Analysis TypesAs a total solution specialized for the detail and nonlinear analysis of civil structures, midas FEA supports various analysis functions as follows:
- Linear Static Analysis
- Construction Stage Analysis
- Modal Analysis- Linear Buckling Analysis
- Transient / Frequency / Spectrum Response Analysis.- Material / Geometry Nonlinearity Analysis
- Interface Nonlinearity Analysis
- Reinforcement / Pile Analysis
- Concrete Cracking Analysis
- Heat Transfer Analysis
- Heat of Hydration Analysis
- Contact Analysis
- Fatigue Analysis
Reinforcement AnalysisSolid elements can be used to model reinforcements that require local analysis for deformation and cracking. These calculations contribute to designs that are far more optimized and accurate than designs created from 1D finite element models. Interface elements can be modeled to calculate ultimate skin friction between two different materials. midas FEA has been widely used in the design of embedded bars, embedded grids and post-tensioned tendons.
Cracking AnalysisLarge scale concrete structures such as bridge girders and columns can be modeled with 3D solid elements. The use of solid elements allows for in-depth analyses of concrete that can effectively calculate critical loading conditions that lead to cracking. midas FEA's post-processor produces visualizations of the tension strain crack patterns as well the direction and status of the element for both fixed and rotating models.
Highly realistic simulations of cracking failure are essential for concrete bridge and concrete slabs that are subjected to large amounts of tension and must therefore implement post-tensioned steel reinforcements. midas FEA has been used for these projects because it enables engineers to create detailed 3D finite element models with a fraction of the time and effort it takes to model on other programs that are less specialized.
Fatigue AnalysisFatigue analysis is necessary for bridges that are constantly subjected to heavy dynamic loads caused by vehicles and wind. These loads will gradually wear down the strength of the connections and materials over time. midas FEA features fatigue analysis that calculate the effects of repeated dynamic vibrations on the stability of the structure. The output file includes the total dynamic cycles that cause failure, safety factor, and damage estimation. With these results you will be able to effectively design for fatigue and prevent failure of the structure over an extended period of time.
Heat Transfer/Stress AnalysisHeat transfer analysis is typically performed for projects that require large amounts of concrete to be set. Significant amounts of heat expansion is caused by the evaporation of water within the concrete during the setting process. If this expansion is not properly taken into account during design then cracking, deformation, and other structural failures are liable to occur. midas FEA calculates and graphically displays the heat flux, heat flow, and temperature gradient. This enables you to predict the both the intensity and areas of heat transfer and modify your designs to prevent complications.
Post ProcessingIt offers numerous outstanding graphical result displays including the thrilling animation maker. The general post operations are controlled through Post-Work Tree, Property Window, and Toolbar
Applications of midas FEA
Detailed Analysis (Linear, Material/Geometry Nonlinear)
Detailed FE analysis (linear static/dynamic analysis of concrete and steel)
Buckling analysis of steel structures with material and geometric nonlinearity
Concrete, Interface and Reinforcement Nonlinear Analysis
Detailed analysis of composite structures (steel + concrete)
3D detailed analysis considering steel, concrete and reinforcement simultaneously
Crack initiation and propagation in concrete structures
Composite modeling and analysis of shear walls
Detailed analysis for tendon anchorages
Thermo-Elastic Analysis (Heat Transfer, Heat of Hydration)
Special Analysis (Contact, Fatigue, Creep) High-end projects with complex geometry and loading pose a variety of unique challenges for engineers. It is essential to use refined analysis methods since conventional methods are not accepted by design codes for these projects. These difficulties have caused engineers to use finite element software for these analyses. However, the limited functionality of these programs has caused engineers to typically convert their finite element models into 1D elements in an effort to save time and effort. This leads to a significant reduction of the accuracy of the calculations as well as designs that are over-conservative.
midas FEA has been specifically designed to overcome all of these challenges. Its advanced functionality enables you to create highly detailed models with plate and solid elements that produce equally precise and reliable results. With midas FEA you will be able to perform high-end analyses with unprecedented levels of confidence and efficiency. You will also be able to greatly expand your range of design capabilities. Projects that may have been beyond your scope will now be attainable since midas FEA greatly expedites work processes that previously required exorbitant amounts of time and effort to complete. Engineers have widely used midas FEA for projects such as plain and reinforced concrete structures, concrete damage and cracking, plain and reinforced masonry structures, composite structures, steel structures, foundations, and offshore structures.
This webinar will elaborate on the advanced functionalities of midas FEA compared to frame modeling software. Session will also include the discussion over the software’s pre, post and analysis capabilities. The viewers will be able to conveniently grasp the entire work process of midas FEA.
Midas programs System requirementsMidas Programs operate on IBM compatible Personal Computer(PC) in the Windows environment.
In addition, Midas programs require the following minimum configuration :
- Microsoft Windows 2000 / XP / VISTA / Windows 7
- MS Internet Explorer Version 6.0 or later version
CPU: Pentium IV or better performing PC processor
(Pentium IV 3GHz or greater recommended)
Memory (RAM): 1GB (2GB or greater recommended)
HDD Space: 5 GB (30GB or greater recommended)
Video Memory: 128 MB or greater
Video Card: GeForce NVIDIA type video card recommended
(On-board video card is not recommended.)
In general, better system will make the analysis and software performance smoother and faster.
(higher memory Ram, local drive storage, etc.) There are system recommendations :
- 64 bit operating system
- If the system can handle GPU, that is even better.
HDD Type: SSD (Solid State Drive)
Graphic Card: NVIDIA G-Force Line Graphic card
ConclusionTo conclude midas FEA works on Windows operating system(s) and can be easily downloaded using the below download link according to Shareware license. midas FEA download file is only 729 MB in size.
midas FEA was filed under the Science and Engineering category and was reviewed in softlookup.com and receive 5/5 Score.
midas FEA has been tested by our team against viruses, spyware, adware, trojan, backdoors and was found to be 100% clean. We will recheck midas FEA when updated to assure that it remains clean.
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Popularity 10/10 - Downloads - 1113 - Score - 5/5
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