Lira Sapr 2015 Torrent
Nov 23, 2015 - Oasis.Montaj.v8.4 JewelCAD Pro v2.2.3 LiraLand.LIRA-SAPR.SAPFIR.2015.R1 InstaCode 2014.
Tutorial on LIRA-SAPR version 2017 The following examples are presented for LIRA-SAPR program version 2015: • Example 1. Analysis of 2D frame • Example 2. Analysis of slab • Example 3. Analysis of frame for industrial building • Example 4. Analysis of 3D building structure with base slab on elastic foundation • Example 5. Analysis of steel tower • Example 6. Analysis of cylindrical tank • Example 7.
Nonlinear analysis of beam on two spans with account of creep in concrete • Example 8. Instrukciya o poryadke obestochivaniya elektrooborudovaniya v sluchae pozhara. Geometrically nonlinear analysis of guyed mast • Example 9.
Analysis of structure on soil foundation with the use of SOIL system • Example 10. Analysis of sheet piling (strengthened with anchors) together with soil of foundation pit • Example 11_M. Analysis of structure with option to modify stiffness of soil (METEOR system) • Example 12_M. Analysis of joint in a steel truss of circular shapes • Example 21. Analysis of 3D framework with different design options for RC structures • Example 22. Analysis of structure on piled foundation with calculation of pile stiffness in the SOIL system (new FE 57) The following examples are presented for LIRA-SAPR program version 2016: • Example 12. Analysis of steel framework of the structure and preparing data to KM-SAPR module • Example 16.
Analysis on progressive collapse • Example 17. SOIL system for generating 2D and 3D soil models The following examples are presented for LIRA-SAPR program version 2017: • Example 18. Analysis of 3D framework of the structure and import of selected reinforcement for further nonlinear analysis • Example 19. Analysis of two-span beam using NonLinear Engineering Design system 9.3 Mb 9.3 Mb. Tutorial on LIRA-SAPR version 2017 The following examples are presented for LIRA-SAPR program version 2015: • Example 1. Analysis of 2D frame • Example 2. Analysis of slab • Example 3.
Analysis of frame for industrial building • Example 4. Analysis of 3D building structure with base slab on elastic foundation • Example 5. Analysis of steel tower • Example 6. Analysis of cylindrical tank • Example 7. Nonlinear analysis of beam on two spans with account of creep in concrete • Example 8.
Geometrically nonlinear analysis of guyed mast • Example 9. Analysis of structure on soil foundation with the use of SOIL system • Example 10. Analysis of sheet piling (strengthened with anchors) together with soil of foundation pit • Example 11_M.
Analysis of structure with option to modify stiffness of soil (METEOR system) • Example 12_M. Analysis of joint in a steel truss of circular shapes • Example 21. Analysis of 3D framework with different design options for RC structures • Example 22.
Analysis of structure on piled foundation with calculation of pile stiffness in the SOIL system (new FE 57) The following examples are presented for LIRA-SAPR program version 2016: • Example 12. Analysis of steel framework of the structure and preparing data to KM-SAPR module • Example 16. Analysis on progressive collapse • Example 17. SOIL system for generating 2D and 3D soil models The following examples are presented for LIRA-SAPR program version 2017: • Example 18.
Analysis of 3D framework of the structure and import of selected reinforcement for further nonlinear analysis • Example 19. Analysis of two-span beam using NonLinear Engineering Design system 9.3 Mb 9.3 Mb.
Intuitive Graphic Environment Option to visualize (3D view) the design model at all stages of analysis and evaluation. Enhanced diagnostic functions. Analysis results may be presented in various formats: graphical (contour plots, diagrams, deformed shapes, mode shape animations) and tabular (displacements, stresses, forces, DCF, DCL, results for analysis of RC and steel elements). It helps the user to evaluate the model quickly. Design options mode: in one problem you could vary element sections, materials, building codes. Special FE Large data set with specific finite elements that enable the user to generate adequate computer models for complex and peculiar structures.