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AulaGEO Academy and Felix Enzo Garofalo Lanzuisi

Disclaimer:

We have selected this course to offer it in English for its high pedagogical quality and user acceptance.

The version of the software used is in Spanish, but the whole explanation of the instructor is narrated in English.

This course will cover the use of the Robot Structural Analysis Professional program for modeling, calculation and design of structural elements in reinforced concrete structures and steel industrial buildings.

Read more

Disclaimer:

We have selected this course to offer it in English for its high pedagogical quality and user acceptance.

The version of the software used is in Spanish, but the whole explanation of the instructor is narrated in English.

This course will cover the use of the Robot Structural Analysis Professional program for modeling, calculation and design of structural elements in reinforced concrete structures and steel industrial buildings.

In a course aimed at architects, civil engineers and technicians in the area who wish to deepen the use of Robot to calculate civil structures according to the most recognized regulations worldwide and in the language of their choice.

We will discuss the creation tools of the structure (beams, columns, slabs, walls, among others). We will see how to perform the calculation of modal and seismic load cases, as well as the use of standards applicable to seismic loads and custom design spectra. We will study in general the workflow for the design of reinforced concrete elements, verifying the armor required by calculation in columns, beams and floor slabs. In the same way we will look closely at the powerful RSA tools for detailing structural elements of reinforced concrete individually or in combination. We will review how to introduce the normative parameters in the detailed and placement planes of the reinforcement steel of columns, beams, slabs, walls and direct foundations isolated, combined or run.

#AulaGEO In this course you will learn to use the RSA tools for the design of metal connections, creating schematic views, generating calculation notes and results according to international standards.

This course is planned to be completed in about a week, dedicating about two hours a day to the realization of the exercises that we will be developing together throughout the course, but you can walk at the speed you feel comfortable.

Throughout the course we will be developing two practical examples that will help us in each case to see the modeling and design tools of concrete and steel buildings respectively.

If you sign up for this course, we guarantee that you will be much more efficient and precise when executing structural projects, as well as entering into the use of a design tool with many features, being highly professional and efficient.

Enroll now

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What's inside

Learning objectives

  • Model and design reinforced concrete and steel buildings in rsa
  • Create the geometric model in the program
  • Create the analytical model of the structure
  • Create detailed steel reinforcement
  • Calculate and design metal connections according to regulations

Syllabus

Introduction
Program Overview
Creating the geometric model
User interface
Read more
Units and formats
Construction lines
Building plants
Definition of the materials
Section Definition
Column Placement
Placement of beams
Thickness Creation
Ribbed thicknesses
Plant slab placement
Slab hollows
Wall placement
Creation of the analytical model
Creation of groups
Support application
Load cases
Wind loads
Seismic spectra
Load application
Load combinations
Grid Creation
Analysis run
Analysis Results
Results by diagrams
Results by maps
Reinforced Concrete Design
Design of reinforced concrete bars
Real bar armor
Panel armor
Foundation Design
Design of steel structures
Assistant for the creation of industrial buildings
Types of steel bars
Design groups
Sizing groups
Final verification of steel bars
Steel connections
Personalized design
conclusion
Farewell

Good to know

Know what's good
, what to watch for
, and possible dealbreakers
Builds a strong foundation for those who are new to using the Robot Structural Analysis Professional program
Reinforces an existing foundation for those who have intermediate knowledge of using the Robot Structural Analysis Professional program
Develops professional skills or deep expertise in using the Robot Structural Analysis Professional program
Strengthens an existing foundation for intermediate learners of the Robot Structural Analysis Professional program
Covers unique perspectives and ideas that may add color to other topics and subjects in structural analysis

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Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Robot structural analysis - for BIM projects with these activities:
Read 'Advanced Structural Analysis' by Aslam Kassimali
Reading this book will help you to understand the theoretical concepts behind the software used in the course and strengthen your foundation in structural analysis.
Show steps
  • Purchase or borrow the book.
  • Read the book thoroughly.
  • Take notes and highlight important passages.
  • Complete the practice problems at the end of each chapter.
Solve practice problems on structural analysis
Solving practice problems will help you to apply the concepts you are learning in the course and identify areas where you need additional support.
Browse courses on Structural Analysis
Show steps
  • Find practice problems online or in textbooks.
  • Solve the problems step-by-step.
  • Check your answers against the provided solutions.
Watch tutorials on structural analysis software
Watching tutorials will help you to learn how to use the software that you will be using in the course and apply the concepts you are learning.
Browse courses on Robot Structural Analysis
Show steps
  • Find tutorials online or on YouTube.
  • Watch the tutorials and follow along with the examples.
  • Practice using the software on your own.
Four other activities
Expand to see all activities and additional details
Show all seven activities
Form a study group with other students in the course
Forming a study group will allow you to collaborate with other students, share knowledge, and reinforce your understanding of the course material.
Show steps
  • Find other students in the course who are interested in forming a study group.
  • Meet regularly to discuss the course material.
  • Work together on practice problems and projects.
Organize your notes, assignments, and other course materials
Organizing your materials will help you to stay on top of the course material and prepare for exams.
Show steps
  • Gather all of your notes, assignments, and other course materials.
  • Create a system for organizing your materials.
  • Review your materials regularly.
Design a small building in the software
Designing a building will help you to apply the concepts you are learning in the course and gain hands-on experience with the software.
Browse courses on Structural Design
Show steps
  • Choose a simple building to design.
  • Create the model in the software.
  • Analyze the model and design the structural elements.
  • Create construction documents for the building.
Contribute to the Robot Structural Analysis open-source project
Contributing to the open-source project will allow you to gain experience with the software, learn from other developers, and contribute to the community.
Browse courses on Open Source
Show steps
  • Find an issue or feature to work on.
  • Create a pull request with your proposed changes.
  • Collaborate with other developers to get your changes merged.

Career center

Learners who complete Robot structural analysis - for BIM projects will develop knowledge and skills that may be useful to these careers:
Forensic Engineer
Forensic Engineers investigate the causes of structural failures and accidents. They must have a strong understanding of structural analysis and design principles to determine the root cause of structural problems. By taking this course on Robot Structural Analysis, Forensic Engineers can enhance their skills in analyzing structural systems, enabling them to more effectively investigate and prevent structural failures.
Professor
Professors teach and conduct research in higher education institutions. Many Professors specialize in structural analysis and design, teaching courses and conducting research in this field. By taking this course on Robot Structural Analysis, Professors can enhance their skills in modeling and analyzing structural systems, enabling them to provide more effective instruction and conduct more advanced research in structural engineering.
Structural Engineer
Structural Engineers are responsible for ensuring the stability and integrity of structures. This involves analyzing and designing structural elements to withstand various loads and forces. By taking this course, you can gain proficiency in Robot Structural Analysis, a powerful software tool that helps structural engineers efficiently design and analyze structural systems. This course will equip you with the skills to perform complex structural analysis and design tasks, making you a more valuable asset to any engineering team.
Structural Drafter
Structural Drafters create detailed drawings and plans for structural systems. They must have a strong understanding of structural analysis and design principles to accurately represent the structural elements of buildings and other structures. By taking this course on Robot Structural Analysis, Structural Drafters can enhance their skills in modeling and analyzing structural systems, enabling them to create more accurate and efficient drawings.
Civil Engineer
Civil Engineers design and build infrastructure projects, such as bridges, roads, and buildings. They must have a strong understanding of structural analysis and design principles. By taking this course on Robot Structural Analysis, Civil Engineers can enhance their skills in modeling and analyzing structural systems, enabling them to design and build safer and more efficient structures.
Consultant
Consultants provide professional advice and services to clients in various industries. Many Consultants specialize in structural analysis and design, providing consulting services to architects, engineers, and contractors. By taking this course on Robot Structural Analysis, Consultants can enhance their skills in modeling and analyzing structural systems, enabling them to provide more valuable advice and services to their clients.
Research Scientist
Research Scientists conduct research in various fields of science and engineering. Many Research Scientists focus on structural analysis and design to develop new and innovative structural systems. By taking this course on Robot Structural Analysis, Research Scientists can gain proficiency in modeling and analyzing structural systems, enabling them to conduct more advanced research and contribute to the development of new structural technologies.
Product Manager
Product Managers are responsible for the development and marketing of products. Many Product Managers work in the construction industry, developing and marketing products such as structural analysis software. By taking this course on Robot Structural Analysis, Product Managers can gain a deep understanding of structural analysis and design principles, enabling them to develop and market more innovative and effective products for the construction industry.
Geotechnical Engineer
Geotechnical Engineers analyze and design foundations and other structures that interact with the ground. They must have a strong understanding of structural analysis and design principles to ensure the stability and integrity of these structures. By taking this course on Robot Structural Analysis, Geotechnical Engineers can enhance their skills in modeling and analyzing structural systems, enabling them to design more efficient and stable foundations and other structures.
Construction Manager
Construction Managers oversee the planning, execution, and completion of construction projects. They must have a solid understanding of structural analysis and design to ensure the safety and efficiency of construction projects. By taking this course, Construction Managers can gain proficiency in Robot Structural Analysis, a valuable tool for analyzing and designing structural systems. This course will provide them with the skills to effectively manage construction projects and ensure their successful completion.
Architectural Designer
Architectural Designers create and design buildings and other structures. They must have a strong understanding of structural analysis and design principles to ensure the stability and integrity of their designs. By taking this course on Robot Structural Analysis, Architectural Designers can gain proficiency in modeling and analyzing structural systems, enabling them to create more innovative and efficient designs.
Entrepreneur
Entrepreneurs start and run their own businesses. Many Entrepreneurs start businesses in the construction industry, providing services such as structural analysis and design. By taking this course on Robot Structural Analysis, Entrepreneurs can gain proficiency in modeling and analyzing structural systems, enabling them to start and run more successful businesses in the construction industry.
Building Inspector
Building Inspectors ensure that buildings comply with building codes and safety regulations. They must have a strong understanding of structural analysis and design principles to assess the structural integrity of buildings. By taking this course on Robot Structural Analysis, Building Inspectors can gain proficiency in analyzing structural systems, enabling them to effectively evaluate the safety and compliance of buildings.
Technical Writer
Technical Writers create technical documentation, such as manuals, white papers, and training materials. Many Technical Writers specialize in the construction industry, creating documentation on structural analysis and design. By taking this course on Robot Structural Analysis, Technical Writers can gain proficiency in modeling and analyzing structural systems, enabling them to create more accurate and informative technical documentation.
Project Architect
As a Project Architect, you are tasked with leading the design and construction of various structural projects. One of the most important tools in your arsenal is Robot Structural Analysis, which enables you to create detailed models of structures and simulate their behavior under different load conditions. By taking this course on Robot Structural Analysis, you can build a strong foundation in the use of this software and enhance your abilities to design and execute complex structural projects.

Reading list

We've selected seven books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Robot structural analysis - for BIM projects.
Provides a comprehensive overview of reinforced concrete design, covering the principles, theory, and practical applications. It great resource for supplementing the course's content on reinforced concrete design.
Is the official commentary on the ACI 318-19 building code. It provides detailed explanations of the code requirements and valuable resource for anyone who wants to design reinforced concrete structures in accordance with the ACI 318 code.
Provides a comprehensive overview of seismic design of buildings. It valuable resource for anyone who wants to learn more about the design of buildings to resist earthquakes.
Provides a comprehensive overview of structural mechanics. It valuable resource for anyone who wants to learn more about the mechanics of structures.
Provides a comprehensive overview of limit state design of reinforced concrete. It valuable resource for anyone who wants to learn more about the design of reinforced concrete structures using the limit state method.
Provides a comprehensive overview of the design of steel structures. It valuable resource for anyone who wants to learn more about the design of steel buildings or other steel structures.

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