Midas Civil 2012 Full Crack
Sherman Desrosiers
It's important to find a trustworthy structural analysis software, especially for engineers, who spend most of their time with designing and analyzing structures. Here's the best partner for structural engineers - midas Civil. Explore what your best partner can do for you.
midas Civil will lighten your work and make bridge design easier than ever before.
With product features based on the Graphical User Interface and a Menu Configuration optimized for structural analysis processes, structural designers can quickly and easily access work-related functions.
In addition to providing a variety of structural analysis functions, our professional product also provides a database for load analysis, such as Moving loads and Seismic loads, that reflects national design standards. Now, let us meet this outstanding product and simplify your analysis.
Analysis data is provided graphically and numerically, so you can intuitively grasp the analysis results and accurately predict the behavior of structures. Not only that, Section design reports provide detailed results according to national design standards.
" midas Civil not only has performed well for pretty complicated bridges like network tied arches,
curved girder bridges, bridges with heavy skews but also it is a very time-saving tool
in a way that it is easy to model them "
" midas Civil facilitates the modeling of the structures, the interface is very user-friendly,
so is highly competitive, especially on the design part. Also, the seismic design and dynamic
design are very well developed. Lastly, it is easy to make an output report
such as analysis or detailed design reports. "
" I have heard very good feedbacks on midas Civil comparing to other English programs.
Some academic theses compared capacities and accuracy of different software,
midas Civil is always in the first position."
No additional programs needed. midas Civil provides the user with various analysis functions for any type of analysis. It is formulated on the basis of linear analysis, but is also capable of carrying out geometric nonlinear analysis.
User-defined sections can be created using the Sectional Property Calculator (SPC). *.dxf files can be directly imported, making it easy to create sections. The section property calculations are provided for the input section configuration by generating fully automated optimum meshes. Furthermore, it is possible to create composite sections composed of several materials.
A scale factor for moment of inertia (Iyy) about y-axis can be applied to check sectional stresses reflecting an effective width. Scale factors for the distances from the neutral axis to the top and bottom extreme fibers (z_top & z-bot) are also specified. The scale factors are applied only to stress calculations and do not affect the calculations for forces and deflections. For steel composite sections and prestressed concrete sections, additional options that calculate the effective width are provided.
midas Civil provides two types of design check in Composite Design (Composite Steel Plate Girder Design & Composite General Section Design). By inputting the design variables, longitudinal & transverse stiffeners information, and shear connector information into the Composite Design function, the design can be reviewed for the entire model or for selected sections. The design results can be checked in the detailed report, table, and graphical views.
The Tapered Group function makes it possible to create tapered sections more quickly. This function is also provided to solve the inconvenience of creating multiple tapered section properties when tapered sections are applied to multiple elements. By using the tapered group function, the user can implement cross-sectional changes in multiple elements linearly or polynomially. This function is available for all structures with varying sections including balanced cantilever bridges, arch rib with tapered sections, etc.
This function is used for buckling analysis in midas Civil. After a simple setup, the program proceeds with the buckling analysis using the geometric stiffness matrix and the stiffness matrix of the structure. The geometric stiffness matrix is calculated from the static load analysis results selected by the user.
The Steel Design function verifies the strength of overall steel members reflecting live load reduction factors, correction factors for seismic loads and moving loads. It also reanalyzes and reevaluates strength for selected members due to varying design properties and criteria. It provides an optimal section design feature.
The Prestressed Composite Bridge Wizard makes it easy to model precast girder bridges. Both straight and curved bridges are possible, and boundary conditions, dead loads, and moving loads are considered for the basic model required for structural analysis. Furthermore, construction stage is considered simultaneously; therefore, the user can review the construction stage composition of Precast girder bridges.
The Tendon Property function allows the user to consider the tension method and the time dependent properties of tendons. The Tendon Profile function can implement the shape of the tendon as coordinates, and accurate structural analysis can be performed by setting detailed options such as the transfer length and debonding length into the Tendon Profile function. In the Tendon Prestress function, jacking force (or jacking) can be considered, so the actual tensioning can be implemented accurately. Tendon optimization can be an iterative modeling process. For this inconvenience, the Change Tendon Profile function is provided.
In the Load Combination function, the user can combine several load cases used in structural analysis. Among the various options provided by the Load Combination function, the Auto Generation option creates load combinations that satisfies the desired design standards of the user.
An alternative way to apply earth pressure loads is to assign appropriate spring supports to the abutment and/or piles to represent the soil properties. midas Civil provides an automatic generative function for the calculation of the spring stiffness for abutments and piles. The calculation method is based on the formulation proposed by B.M. Lehane.
The Hydrostatic pressure load function can be applied to plates, plane stress, plane strain, or solid elements. Originally, it is a function that inputs pressure loads due to the flue potential, but it can be applied to the earth pressure as it can be considered for not only linear shapes but also curved shapes.
The thermal contraction/expansion of the deck influences the earth pressure. It is one of the design conditions for the abutment wall. midas Civil provides element temperature loads, temperature gradient loads, etc, to consider all thermal load types.
Domain and sub-domain settings are required to perform design for plate elements in midas Civil. After setting up to the sub-domain, Plate Beam or Plate Column Design of the RC design function and the checking function can be used.
Different load (analysis) cases can retain separate boundary conditions within a model. Even in the case where static analysis and dynamic analysis are associated with different boundary conditions, the two analyses can be carried out within the same model instead of two different model files.
In the RC Design function, the user can perform section review according to country-specific design standards. Furthermore, inputs required for design can be easily entered. The RC Design function is divided into Design and Checking. The Design function uses analysis results and design inputs to design each member, and provides the optimal amount of reinforcement needed for the structure. The Checking function performs component specific design using analysis results and design inputs, and reviews the appropriate design conditions.
midas Civil offers a variety of wizards for structures that are frequently modeled by engineers. Through the wizard, users can quickly solve repetitive modeling tasks or defining many construction stages. Furthermore, the wizard is provided based on the construction method or the shape of the structure. e.g.)Contruction method (ILM Bridge Wizard, FCM Bridge Wizards, MSS Bridge Wizard, and FSM Bridge Wizard), Structure type (Suspension Brigde Wizard, Cable-Stayed Bridge Wizard, RC Slab Bridge Wizard, RC Frame/Box Wizard, Grillage Model Wizard, and Transverse Model Wizard).
Heat of hydration analysis of massive concrete structures can be performed using the solid element and construction stage analysis functions in midas Civil. Furthermore, ambient temperature analysis and stress analysis can be performed using the functions provided.
The Cable Stayed Bridge Wizard is a function that is available for user modeling convenience. With this function, the user can create a 2D model considering the symmetrical and asymmetrical shape of cable stayed bridges, the shape of girders (trusses or beams), and the elevation of bridges.
The Unknown Load Factor is an optimization function for determining the optimal load factor that satisfies specific constraints of structures. It can be used effectively to calculate the initial tension introduced into cables of cable-stayed bridges or to obtain jack-up loads for adjusting the moment distribution of long-span bridges
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