- Cable profile autocad structural detailing how to#
- Cable profile autocad structural detailing software#
Cable profile autocad structural detailing software#
The entire application can construct a building to be accurate and complete information and to express the model and the image seems to show beautiful and the models created be used in the Robot Structural Analysis Revit Structure analysis the be.Ī key feature of the software Autodesk AutoCAD Structural Detailing: With this software, books, household material standards Steel Building Design and implementation of the framework structure is very simple, quick and easy and the ability to perform all actions and processes to design and implement a structure of the building structure, house glass and steel, bridge steel, iron and steel facilities such as planning and design, getting supplies and materials list, construction details, reviews and changes to improve the selection and specifying the types of connections, providing documents, executive orders And. This software enables engineers to design and implementation structure that carefully designed and implemented to create more and better. Displacements of the analyzed structureįigure 5.AutoCAD Structural Detailing software for the design and analysis of steel and concrete structures for buildings and structural engineers are. 101 was used to compute the results).įigure 4. The following pictures present the results for a static non-linear analysis (combination No. For this example we choose a mesh size of 0.5 meters. Note: The element mesh size has a great influence on the computed results.
Properties window of the static non - linear case
This option is in the properties window of the static non - linear case.įigure 3. To obtain valid results, the large displacement option must be activated.
Cable profile autocad structural detailing how to#
To see how to create a static non-linear case and setup its parameters, consult the FAQ: How is a nonlinear analysis created?. The cable elements are made of steel S235 and have a diameter of 2 cm.Īfter defining the load combinations (see Figure 2), we create a static non-linear analysis. The entire system is subjected to a vertical planar load (Fz = -3kN), which includes the self-weight of the planar element, and two horizontal forces (Fx = 25kN) that are applied at the beam to column connection. We define only a windwall element, which will transmit forces to adjacent elements. Cross-sections of tie beam and cantilever beams are SHS150x10H.Īs seen in Figure 1, there are no planar elements defined. Vertical bracings have SHS50x5H cross-sections and are defined as bar elements. For this model, the column cross-sections are HEB360 and their base can be considered fixed. Structure description and loading stateĪll elements are made of steel S235. The structure description is shown in the following figure (Figure 1).įigure 1. In the following example, we consider a metallic sunblind that is supported by cable elements. Advance Design can perform the calculation of both linear and non-linear analyses, except for the structures containing cable elements, which can be calculated only by non-linear analysis.