Revit Structure + Robot + Concrete + Advance Steel | 4 In 1

Learn how to use AutoDesk Revit, Robot Structural Analysis, Reinforced Concrete Advance Steel for the structural design.

What you'll learn
Make structural designs more effectively using Autodesk tools
Create structure models in Revit
Run analysis and normative designs in Robot
Create plans of the structure in general quickly and efficiently
Make plans for structural detailing in Structural Detailing
Requirements
In need for the student to have notions of work in CAD environment and in Revit
To carry out the practices it is important to have the following software installed on your PC or MAC: Revit Structure, Professional Robot Structural Analysis, AutoCAD Structural Detailing
Description
Draw, design and document your structure projects with REVITEnter the design field with BIM (Building Information Modeling)Master the powerful drawing toolsCreate your own templatesExport to calculation programsCreate and document plansCreate and analyze loads and reactions in structuresPresent your results with quality plans in half the time.#AulaGEO With this course you will learn how to take advantage of these tools so that the process of designing structures for buildings is faster, more efficient and of higher quality.A new way to manage your projectsRevit software is the world leader in building design using BIM (Building Information Modeling), allowing professionals not only to generate plans but to coordinate the entire building model including design features. Revit is designed to include design tools for building structures.When you assign elements to a project, you can:Automatically generate floor plans, elevations, sections and final impressionsPerform static calculations in the cloudPerform advanced calculations in specialized programs such as Robot Structural AnalysisCreate structural and analytical modelsQuickly create and document detail plansImprove your performance when working on a BIM modelCourse OrientationWe will follow the logical order in which you would develop a personal project. Instead of considering each theoretical aspect of the program, we will focus on following the workflow that best suits a real case and give you some tips to achieve the best results.You will get prepared files that will allow you to follow the progress of the course from where you consider it most necessary by guiding you to use the tools yourself while watching the classes.The course content is updated regularly to include important updates or points that can help you improve your learning and you will have access to them in real time so you can improve your continuous skills.–––––––––––––––––––-Disclaimer:From the 4 courses, the Robot section, the software interface used is in spanish; but the whole explanation of the instructdor is narrated in english.  We selected this from a spanish for the high teaching quality.The Revit Structure and Steel Design courses are english both, the software interface and audio.

Overview

Section 1: SECTION 01 - REVIT STRUCTURE

Lecture 1 Introduction

Lecture 2 Install Content Libraries

Section 2: User interface

Lecture 3 The Ribbon

Lecture 4 User Interface Features

Section 3: Drawing tools

Lecture 5 Workflow in Revit Structure

Lecture 6 Work template

Lecture 7 Load families

Lecture 8 Grids and levels

Lecture 9 Column Placement

Lecture 10 Beam Placement

Lecture 11 Beam or Belt Systems

Lecture 12 Flooring

Lecture 13 Placement of cross stiffeners

Lecture 14 Creation of lattices or trusses

Lecture 15 Structural walls

Lecture 16 Foundations

Lecture 17 Metallic reinforcement

Section 4: Analytical model

Lecture 18 Creation of load cases

Lecture 19 Load combinations

Lecture 20 Load application

Lecture 21 Apply border conditions

Lecture 22 Link to Robot Structural Analysis

Section 5: Practices

Lecture 23 Concrete Practical Example - Part 1

Lecture 24 Concrete Practical Example - Part 2

Lecture 25 Concrete Practical Example - Part 3

Lecture 26 Practical Example Steel Structure - Part 1

Lecture 27 Practical Example Steel Structure - Part 2

Section 6: conclusion

Lecture 28 conclusion

Section 7: SECTION 02 - ROBOT STRUCTURAL ANALYSIS

Lecture 29 Program overview

Section 8: Creation of the geometric model

Lecture 30 User interface

Lecture 31 Units and formats

Lecture 32 Construction lines

Lecture 33 Building plants

Lecture 34 Materials definition

Lecture 35 Section definition

Lecture 36 Column placement

Lecture 37 Placement of beams

Lecture 38 Thickness creation

Lecture 39 Ribbed thicknesses

Lecture 40 Plant slab placement

Lecture 41 Gaps in slabs

Lecture 42 Wall placement

Section 9: Creation of the analytical model

Lecture 43 Creation of groups

Lecture 44 Support application

Lecture 45 Load cases

Lecture 46 Wind loads

Lecture 47 Seismic spectra

Lecture 48 Aplicación de cargas

Lecture 49 Load combinations

Lecture 50 Mesh Creation

Lecture 51 Analysis run

Section 10: Results

Lecture 52 Results by diagrams

Lecture 53 Results by maps

Section 11: Reinforced concrete design

Lecture 54 Design of reinforced concrete bars

Lecture 55 Real bar armor

Lecture 56 Panel armor

Lecture 57 Foundation Design

Section 12: Design of steel structures

Lecture 58 Assistant for the creation of industrial buildings

Lecture 59 Types of steel bars

Lecture 60 Design groups

Lecture 61 Sizing groups

Lecture 62 Final verification of steel bars

Lecture 63 Steel connections

Lecture 64 Personalized design

Section 13: Brief introduction to detailed programs

Lecture 65 Export from Revit to Advance Steel

Lecture 66 Connections according to AISC

Lecture 67 Creation of final plans

Section 14: Advance Steel in detail

Lecture 68 Grid Creation

Lecture 69 Column creation

Lecture 70 Beam Creation

Lecture 71 Beam Systems

Lecture 72 Transverse Reinforcements

Lecture 73 Joists

Lecture 74 Model views

Lecture 75 Connections (Base Plate)

Lecture 76 Connection Group

This course is aimed at those professionals related to structural design who wish to improve their efficiency,Engineers who participate in the final structural project documentation process can also benefit from this course.,It is not a theoretical content course, rather it is a practical course on how to apply the knowledge previously acquired in structural design along with tools that facilitate the work of engineers and others involved in the project.