Structural Design with Robot Structural Analysis - AulaGEO
What you'll learn
- 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
Requirements
- You should already be familiar with the theoretical aspects of the calculation of structures
- It is advisable to have the program installed or failing to install the trial version
Description
Course Overview
Welcome to this comprehensive Robot Structural Analysis Professional course, designed for architects, civil engineers, and technicians seeking to enhance their ability to model, calculate, and design structural elements in reinforced concrete and steel industrial buildings. This course is structured to guide you step-by-step through the process of using Robot Structural Analysis (RSA), from modeling and calculation to the design and detailing of structural elements.
Please note: While the version of the software used is in Spanish, all course instructions and explanations are narrated in English for clarity and accessibility.
This course will enable you to efficiently and accurately design structural projects with Robot Structural Analysis, focusing on international standards and normative regulations for reinforced concrete and steel structures. We will provide you with essential skills to optimize workflows, increase productivity, and ensure high-quality designs. You’ll learn the use of RSA tools to calculate seismic load cases, define materials and reinforcement, and create detailed reinforcement plans for structural elements.
By the end of this course, you will:
Be proficient in using Robot Structural Analysis for the design of both reinforced concrete and steel structures.
Understand the tools for performing seismic load calculations, designing elements such as beams, columns, and slabs, and working with steel connections.
Be able to generate detailed design reports, including reinforcement details for concrete elements and steel connections.
Improve the efficiency and accuracy of your structural design projects, integrating industry-recognized standards and best practices.
What You Will Learn
Geometric Modeling: Learn how to create accurate models using various tools like beams, columns, slabs, and walls.
Load Calculations: Understand how to calculate modal and seismic load cases and apply them to your designs.
Designing Concrete Structures: Study how to design reinforced concrete elements, ensuring compliance with relevant standards and calculating the required reinforcement.
Steel Structure Design: Gain proficiency in designing steel structures, with a focus on steel connections, and create detailed calculation notes.
Detailed Reinforcement Plans: Learn how to generate reinforcement placement drawings and specification sheets for concrete structures, including foundations, columns, beams, and slabs.
Real-world Applications: We’ll develop two practical examples throughout the course that will allow you to apply your learning to both concrete and steel building designs.
Course Content
Section 1: Introduction
Lecture 1: Program Overview – Introduction to Robot Structural Analysis Professional and its capabilities for structural design.
Section 2: Creating the Geometric Model
Lecture 2: User Interface – Learn how to navigate the RSA interface.
Lecture 3: Units and Formats – Setting up the correct units and formats for your project.
Lecture 4: Construction Lines – Creating construction lines to define the geometry of your structure.
Lecture 5: Building Plants – Learn how to create floor plans for multi-story buildings.
Lecture 6: Definition of the Materials – Defining the materials (concrete, steel, etc.) for your structure.
Lecture 7: Section Definition – Defining cross-sections of structural elements like beams and columns.
Lecture 8: Column Placement – Placing columns in the model and defining their parameters.
Lecture 9: Placement of Beams – Placing beams in the model and defining beam properties.
Lecture 10: Thickness Creation – Defining thickness for slabs and walls.
Lecture 11: Ribbed Thicknesses – Applying ribbed thicknesses to slabs for more complex designs.
Lecture 12: Plant Slab Placement – Placing and defining plant slabs in the model.
Lecture 13: Slab Hollows – Creating hollow spaces in slabs to reduce weight.
Lecture 14: Wall Placement – Placing walls and defining their properties.
Section 3: Creation of the Analytical Model
Lecture 15: Creation of Groups – Grouping elements to facilitate analysis.
Lecture 16: Support Application – Applying boundary conditions and supports to your structure.
Lecture 17: Load Cases – Defining the different load cases for analysis.
Lecture 18: Wind Loads – How to apply wind load cases.
Lecture 19: Seismic Spectra – Applying seismic loads and understanding seismic design parameters.
Lecture 20: Load Application – Applying loads to the model.
Lecture 21: Load Combinations – Combining loads for a realistic analysis.
Lecture 22: Grid Creation – Creating a structural grid to organize your model.
Lecture 23: Analysis Run – Running the structural analysis and interpreting results.
Section 4: Analysis Results
Lecture 24: Results by Diagrams – Viewing results in graphical form (bending moments, shear forces, etc.).
Lecture 25: Results by Maps – Viewing results in mapped form to visualize stress distributions.
Section 5: Reinforced Concrete Design
Lecture 26: Design of Reinforced Concrete Bars – Designing beams and columns in reinforced concrete.
Lecture 27: Real Bar Armor – Detailing the required reinforcement for concrete elements.
Lecture 28: Panel Armor – Designing and detailing the reinforcement of concrete panels.
Lecture 29: Foundation Design – Designing and detailing concrete foundations.
Section 6: Design of Steel Structures
Lecture 30: Assistant for the Creation of Industrial Buildings – Using RSA tools to design steel industrial buildings.
Lecture 31: Types of Steel Bars – Understanding the different types of steel bars used in design.
Lecture 32: Design Groups – Creating design groups for steel structures.
Lecture 33: Sizing Groups – Sizing steel groups based on design calculations.
Lecture 34: Final Verification of Steel Bars – Verifying the sizing of steel bars to meet design requirements.
Lecture 35: Steel Connections – Designing and detailing steel connections.
Lecture 36: Personalized Design – Customizing your design based on specific project requirements.
Why Enroll in This Course?
Comprehensive Curriculum: Learn both concrete and steel design using Robot Structural Analysis Professional, one of the most powerful tools for structural engineering.
Practical Projects: Engage in real-world projects that mirror the types of challenges faced in structural design.
Increased Efficiency: Master the tools that will make you more productive and precise in your work, reducing the time required for designing complex structures.
Expert Instructor: Learn from an instructor with years of industry experience, guiding you through every step of the process.
By the end of this course, you will be equipped with the knowledge and skills to tackle even the most complex structural projects efficiently and professionally.
Enroll now and take the first step toward mastering structural design with Robot Structural Analysis Professional!
Who this course is for:
- This RSA course is aimed at architects, civil engineers and anyone related to the calculation and design of structures
Instructors
- 4.0 Instructor Rating
- 5,067 Reviews
- 74,388 Students
- 135 Courses
Welcome to our Academy platform, your ultimate destination for online courses covering a wide range of subjects, including GIS, CAD, BIM and Digital Twins applied to the land development environment. We are committed to providing comprehensive education and empowering individuals to excel in various domains related to infrastructures. Whether you are a student, a professional seeking to expand your knowledge, or an enthusiast passionate about these subjects, our platform offers a diverse selection of courses tailored to meet your specific needs.
At our Academy, we recognize the significance of these disciplines in the infrastructures life cycle, from initial design to project completion. To ensure the highest quality of education, we have collaborated with renowned industry expert Golgi Alvarez and assembled a team of AulaGEO Academy experts to create, adapt to English and/or Spanish languages and curate cutting-edge courses.
Architecture – Engineering – Construction – Operation (AECO) is a harmonious blend of creativity and technical expertise. Our AECO courses encompass a broad range of topics, from Civil design principles to sustainable construction practices. You will gain proficiency in conceptualizing and developing designs that fulfill aesthetic, functional, structural and regulatory requirements. Our instructors, including renowned expert Golgi Alvarez, will guide you through the design process, helping you refine your visualization and communication skills. Furthermore, you will acquire a solid foundation in structural analysis and design, ensuring the safety and stability of your land development creations.
Geographic Information Systems (GIS) have revolutionized the way we collect, analyze, and visualize spatial data. Our GIS courses explore the power of GIS technology for mapping, spatial analysis, and data management. Using software like ArcGIS Pro and QGIS you will gain insights into interpreting and manipulating geospatial data, designing interactive maps, conducting spatial queries, and leveraging GIS for various applications, including land management, environmental analysis, and urban planning. Our GIS courses provide a competitive advantage in fields that rely on spatial data analysis and informed decision-making.
Civil Engineering plays a pivotal role in the design and construction of infrastructure. Our engineering courses cover a broad spectrum of topics, including structural engineering, transportation systems, and urban design. Using software like AutoDesk Civil3D and Bentley OpenRoads you will learn the principles and techniques required to design, construct, and maintain buildings, bridges, roads, and more. Our experienced instructors bring their industry expertise to the virtual classroom, providing valuable insights
Computer-Aided Design (CAD) is the backbone of modern design processes, enabling precise and efficient creation of 2D and 3D models. Our CAD courses cover a wide array of software applications, including AutoCAD, Microstation, and CREO Parametric. From fundamental concepts to advanced techniques, you will acquire the skills necessary to create, modify, and analyze complex designs, ensuring accuracy and optimizing workflows. Our courses cater to beginners seeking a solid foundation as well as experienced professionals aiming to enhance their expertise.
Building Information Modeling (BIM) has transformed the architecture, engineering, and construction industries by facilitating collaborative and data-driven project management. Our BIM courses delve into the principles, workflows, and software tools utilized in BIM, such as Revit and SYNCHRO. You will learn to create intelligent 3D models that encompass architectural, structural, and MEP (mechanical, electrical, and plumbing) systems. Additionally, you will discover techniques for accurate quantity extraction, clash detection, and generating construction documents. Mastery of BIM equips you to contribute effectively to multidisciplinary project teams and streamline project delivery.
ARTS & DEVELOPMENT
Additionally, as part of our social responsibility, some of our courses have been made available to development projects in certain countries. This has allowed us to benefit communities and replicate our methodology, leading to the creation of new courses in response to demand in areas such as graphic design, art, and social disciplines.
Copyright:
For copyright management and DMCA purposes, all the content of AulaGEO Academy is managed by Golgi Alvarez.
- 4.3 Instructor Rating
- 5,568 Reviews
- 38,864 Students
- 40 Courses
Soy un entusiasta de la tecnología y me he dedicado a la enseñanza de las materias que me apasionan. Con más de 15 años de experiencia en diseño asistido por computador y un sólido conocimiento acerca del Modelado de Información de Edificaciones he compilado mucha de la experiencia adquirida a través de los años en cursos de capacitación útiles, fáciles de entender y prácticos para el día a día del diseñador.
Mis campos de acción incluyen CAD (Computer Aided Design), CAE (Computer Aided Engineering), FEA (Finite Element Analysis), BIM (Building Information Modeling), PM (Project Management). Y aunque me inicié con el estudio de la ingeniería civil, he explorado otras ramas de la ingeniería, participando en proyectos que incluyen la creación de modelos computaciones para la simulación de maquinaria para la extracción de petróleo, análisis no-lineal de cimentaciones especiales, diseño de piezas automotrices, estudio de estabilidad en túneles, entre otros tipo de proyectos.
Así mismo, he creado aplicaciones de software dirigido a la administración de procesos y al diseño asistido por computador. También soy programador web, especializándome en aplicaciones web .NET. Tengo experiencia programando en C#, Java, Python, C++, Foltran, JavaScript. Y en lenguajes de etiquetado como HTML5 y CCS3.
Como hobby he incursionado en la programación de autómatas programables (PLC) y en la programación en Assembler de micro-controladores.
En resumen, me encanta a prender y enseñar. Ese es realmente mi trabajo.