Configure regional and language preferences, then explore modular design to set up the isolated beam design using concrete reinforced elements in structural analysis.

Explore beam geometry and general parameters by selecting a rectangular shape with width 45 cm, height 50 cm, length 5 m, left/right supports, concrete or masonry.

Apply a load on the RC beam by selecting options, entering the value (one point five trillion Newton), adding a parameter, and confirming the setup.

Explore beam notes detailing calculations, deflections, cracking, and internal forces, with material data, concrete volume estimates, reinforcement and deflection, and code-compliant load combinations explained.

Apply the load by opening the window, selecting the continuous option, setting the load value, adjusting the number of stories, and then applying the load.

Design and configure the foundation in the structural analysis tool by selecting foundation type and geometry, then input footing depth, column size, and edge dimensions to generate the model.

Explore calculation settings in the robot structural analysis tool, choose a country characteristic, set the unit to 155, and leave options directed to the structure to achieve the best result.

Explore the foundation reinforcement pattern, set diameter and elevation values, enable connections, and choose from several ship configurations to assess their influence on the foundation design.

Select and draw structural columns by navigating the interface, choosing column sizes, and adding the defined columns to set up the problem.

Learn to draw a beam and model a frame with a column by selecting the beam, adjusting the section to 350, and using the shive option, plus an extra video.

Select all frame elements, apply the supports, and fix the isolated node to add the support and ensure the frame is fixed.

Define a column and beam by adding a new section, selecting the section type, and entering 15 inch dimensions; then add a 12 inch beam with the chosen material.

Select the XY plan, add columns by choosing the columns tool and the section, place one or more columns along the route, view them in the architectural plan, and close.

Define and name slab sections in the model, set four-inch and six-inch thicknesses, add them, verify the dimensions, and finalize the slab material.

Modify exterior beam loads by adjusting loading conditions and using the provided extension to calculate new values. Set loads to about 2.50 and replicate the steps for interior beams.

Learn to view only slab loading by using display > loads, selecting the correct symbols, and applying changes to show surface loads while unchecking linear load conditions.

Modify slab loads in robot structural analysis by adjusting roof superimposed loads, such as water tanks and pipes, using the software’s load modification tools and properties.

This lecture demonstrates solving nodes problems in a structural analysis workflow by setting up the model and units and selecting analysis options for panels.

design a slab with provided reinforcement by selecting the slab and running calculations, then inspect top and bottom reinforcement details and review results such as concrete volume and steel weight.

Explore advanced modeling of Schily structures using a single template in this section, as we introduce the approach for example 1.

Open a new structural project, switch to metric units, and configure the initial grids by adjusting spacing from five meters to one and setting preferences.

Robot structural analysis teaches you to construct a square using coordinates to judge the points. Add points, verify two-meter distances, and compare the model to the intended geometry.

Explore the advanced scaling function in robot structural analysis, modifying an object's geometry by selecting center view, applying scale compression values, and joining points to reshape the model.

select the target element and assign a concrete thickness to the section, such as 12, demonstrating how to apply thickness and material properties to your robot structural analysis model.

Model beams along the side by selecting beam type and the predefined section, enter node coordinates (manually or by clicking), and preview the structural layout.

Model the column by selecting the S.O.S column section, defining the beginning and end points with coordinates, then copy and extend it by six meters and execute.

Explore advance modelling for formation of an arch by selecting options, setting the x axis position, applying predictions, and adjusting points with stock and trim values to shape the arch.

Select the projection view, switch to the X projection, use geometry and falling line control to set coordinates, then enter values like 0,0 and 2,6,0 to add to the shell.

Select a bar, choose a section, and enter coordinates to model a bracing element, then rotate, copy, and execute to finalize the bridge frame in the software.

Apply the live load to a selected surface by choosing the uniform option, setting direction, and entering the Newton value for object one.

Apply the live load 2 by adding four points on the site, selecting them, then click add and apply to finalize the load distribution.

Select notes 1, 12, 22, and 24, add them, and apply the law to these notes, then verify and click add and apply to complete the process.

Define and configure the workload by creating a new user database, naming it, and setting database details to model the moving load in the vehicle.

Learn to create and review animations in robot structural analysis by adjusting animation settings, starting the simulation, and observing how loads move and the structure responds.

Explore how to perform calculations in the robot structural analysis tool by using display options, legends, and group design selections, then apply optimization to reduce weight, cost, and review results.

Click verification, select all options, then run the calculation to see messages and the okay status, confirming the verification results.

Identify and apply the DST algorithm in structure analysis, confirm time history analysis settings, run calculations, and prepare to view Lafsky Control results in the next lecture.

Select the node, set displacement values, and click apply to view the time history analysis for that node. To compare across nodes, enter different node values and re-check the results.

We will do one more sitting here, go to job references, start the structure so we don't need to come back, tegmark on DCL algorithm for religious and arling element.

Learn to define three kinds of sections, add and rename them, enter dimensions, modify as needed, and convert units by dividing by ten in a practical structural analysis workflow.

Learn to draw a column and rafters by switching to the structural axis, selecting a section, drawing the beam, applying SG 950, and checking the extrusion to visualize the model.

Learn how to tackle problems in a defined section by adjusting settings; changes automatically update and propagate to all related views, with steps to select, modify, and verify sections.

Learn to divide rafters in the robot structural analysis professional course by selecting rafters, using the division tool, entering a 7.8 m distance, and executing to create splits.

Model the gable end column and rafters in a structural analysis context. Follow plane orientation, select the correct structure, and add components to the column.

Move and extend columns in robot structural analysis by selecting elements, using point-and-click to reposition, entering x-direction values, and extending boundaries to close gaps.

Practice modeling bracing in robot structural analysis by zooming in, selecting bars and nodes, snapping, matching, and rotating components, then prepare for measurement in the next lecture.

Identify different materials by color in the software by using the display options, applying colors by materials, and confirming with apply and okay to view distinct colored objects.

Copy cladding in the y direction by selecting the cladding, using control and left-click, and setting three copies from two to three to position the new elements.

Select the points to apply the cladding on the structure, ensuring joints contact and no gaps. Correct mis-clicks with escape and reselect, completing the cladding on all sides.

Learn to view and interpret various structural analysis results. Inspect gate and witness information, review values and states to evaluate the structure.

Set a displacement limit by selecting the displacement value, defaulting to the preset limit, and saving the setting.

The lecture demonstrates viewing member type properties, using display options to set color, and applying changes to ensure all items share the same color.

Explore completing the structural analysis and design workflow in Robot Structural Analysis, rechecking analysis, rerunning calculations, and ensuring all members pass after addressing prior failures.