Nonlinear uplift can be implemented through soil-spring modeling. Manual and automatic point, line, and uniform loads, enveloped and applied per user-defined or building-code specification, are presented in clear and detailed 3D views. A sophisticated slab analysis can then proceed with realistic contribution from adjoining systems.
SAFE enables the following analyses: nonlinear , cracked-section, long-term cracked-section capturing creep and shrinkage behavior , dynamic , Ritz or Eigen modal-frequency , floor-vibration, and foundation-level nonlinear-cracked-slab, among others.
Measures may be implemented for deflection control and import of parameters from dynamic analysis using ETABS. Accurate nonlinear simulation of combined vertical, lateral, and secondary response enables effective slab design and detailing. Output and display features are equally comprehensive. The Report Generator compiles images and input, analysis, and design data in organized and customizable reports that may be printed or exported in a variety of file formats.
The mouse-over feature displays values at any point. Bearing-pressure contours and vertical-system reactions are also depicted. SAFE automatically generates drawing sheets for plan, elevation, and section views that detail and dimension framing, reinforcement, and tendon layout. The trainer is very versed Ahmad Assad. The course was excellent thank you Al-Hussein Al-Dahhan. Related Courses. Autocad - Renewable Energy 24 Hours View details.
Modern Vehicles Electricity 20 Hours View details. Maintenance of Hybrid Cars 60 Hours View details. Types of Sensors 6 Hours View details. Hybrid Vehicle Technology 20 Hours View details. Fuel System 10 Hours View details. There are lots of structural engineering software capable of designing a slab. This article will tackle the design considerations in terms of parameter review and checks that need to consider by the designer before the analysis and design of a slab.
This is written to serves as guidelines for engineers that use this software. Design Loadings Check. Aside from manual modeling of a slab, another method of modeling the slab is through model imports from ETABS analyzed model.
The common mistake of the designer at the start is not counterchecking or reviewing if the design loads have been imported. Models can have columns, braces, walls, and ramps connected from the floors above and below.
Walls can be modeled as either straight or curved. Mats and foundations can include nonlinear uplift from the soil springs, and a nonlinear cracked analysis is available for slabs. Generating pattern surface loads is easily done by SAFE with an automated option. Design strips can be generated by SAFE or drawn in a completely arbitrary manner by the user, with complete control provided for locating and sizing the calculated reinforcement.
Finite element design without strips is also available and useful for slabs with complex geometries. Comprehensive and customizable reports are available for all analysis and design results. Detailed plans, sections, elevations, schedules, and tables may be generated, viewed, and printed from within SAFE or exported to CAD packages. SAFE provides an immensely capable yet easy-to-use program for structural designers, provideing the only tool necessary for the modeling, analysis, design, and detailing of concrete slab systems and foundations.
Structural Analysis and Design.
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