Robot Structural Analysis (Steel building) from Udemy

What's inside

Syllabus

Introduction

Overview

Preferences

Job preferences

Modeling

Stories Definition

Axis Definition

View

Sections Definition

Columns modeling

Columns groups

Rafters Definition and Modeling

Selection

Special selection

Rafters Grouping

Secondary beams

Secondary beams Grouping

Display

Slab

Loads

Loads Definition

Assign loads

Wind Load

Beam Release

Results

Combinations

Design of elements

Composite Beams

Composite Beams 2

Rafters Y Design

Rafters X Design

Columns Design

Seismic Load

Seismic Introduction

Seismic Definition

Base shear results

Diagrams for building

Stories

Drift Checking

V Bracing Model

V Bracing

Bracing groups

Bracing Parameters

Base shear

Diagrams for bars

Columns and Rafters Design

Bracing Design

X Drift Verification

Foundation Design

Footing Design

Second Footing

Connections Design

Base connection

Frame Knee Connection

Bonus

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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 (Steel building) with these activities:

Review Steel Design Fundamentals

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Reinforce your understanding of steel design principles before diving into Robot Structural Analysis. This will help you grasp the software's design checks and code implementations more effectively.

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Review basic concepts of stress and strain.
Study different steel grades and their properties.
Familiarize yourself with common steel connection types.

Review 'Eurocode 3: Design of Steel Structures'

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Familiarize yourself with the relevant design codes (Eurocode) used in Robot Structural Analysis. This will help you understand the design checks and ensure compliance with industry standards.

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Obtain a copy of Eurocode 3.
Review the sections related to member design and connections.
Understand the load combinations and safety factors.

Read 'Steel Structures: Design and Behavior' by Salmon and Johnson

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Supplement your learning with a comprehensive textbook on steel structures. This will provide a deeper understanding of the underlying principles used by Robot Structural Analysis.

View Steel Structures: Design and Behavior on Amazon

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Obtain a copy of 'Steel Structures: Design and Behavior'.
Read chapters related to beam and column design.
Review sections on connection design and stability.

Four other activities

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Model Simple Steel Frames in Robot

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Practice modeling simple steel frames in Robot Structural Analysis to become familiar with the software's interface and modeling tools. This will improve your efficiency when working on more complex projects.

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Create a new project in Robot Structural Analysis.
Model a simple steel frame with beams and columns.
Apply basic loads and run a static analysis.
Review the analysis results and member forces.

Generate a Report for a Designed Structure

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Practice generating comprehensive reports from Robot Structural Analysis. This will help you learn how to present your design results effectively and communicate your findings to others.

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Design a complete steel structure in Robot.
Customize the report settings to include relevant information.
Generate a detailed report with analysis results and design checks.
Review the report for accuracy and completeness.

Follow Advanced Robot Tutorials

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Explore advanced features of Robot Structural Analysis through online tutorials. This will expand your knowledge and enable you to tackle more complex structural problems.

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Search for tutorials on advanced topics like dynamic analysis.
Follow the tutorials step-by-step and replicate the examples.
Experiment with different parameters and settings.

Design a Small Steel Building

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Apply your knowledge by designing a small steel building from start to finish using Robot Structural Analysis. This will solidify your understanding of the entire design process.

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Define the building's geometry and loading conditions.
Model the structure in Robot Structural Analysis.
Perform structural analysis and design checks.
Generate design reports and drawings.

Career center

Learners who complete Robot Structural Analysis (Steel building) will develop knowledge and skills that may be useful to these careers:

Structural Engineer

The role of a Structural Engineer involves designing and assessing the safety and stability of structures, ensuring they can withstand various loads and environmental conditions. This course equips you with skills in modeling, analyzing, and designing steel building elements, directly aligning with the responsibilities of a Structural Engineer. You will learn to define loads, design steel elements, and design connections which will build a foundation in steel design. The course's focus on Eurocode for wind and seismic load definition is helpful for those working in regions where those standards are followed. The emphasis on designing foundations and connections also provides practical knowledge for a Structural Engineer.

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Design Engineer

Design Engineers are responsible for creating and developing technical designs for a variety of projects. This course will be very useful when working on steel building projects. The course covers how to model, analyze, and design steel elements and connections, equipping the design engineer with the technical knowledge that is needed. Understanding load considerations and design codes will also help in producing designs that meet safety and performance requirements. The course's hands on approach to steel building design can allow the design engineer to be successful.

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Civil Engineer

A Civil Engineer is involved in the design, construction, and maintenance of infrastructure projects. This course will be very useful when working on steel building projects. The course covers modeling, analysis, and design of steel structures and can help a civil engineer understand the specifics of steel construction. Learning how to define wind and seismic loads and designing foundations are crucial aspects covered in the course. This is relevant to the broader scope of civil engineering. The course's focus on Eurocode standards may be especially helpful if such standards apply to one's engineering work.

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Engineering Consultant

An Engineering Consultant provides expert advice and guidance on engineering projects. This course will be very useful if you specialize in structural engineering. This course's focus on modeling, analyzing, and designing steel building elements, directly aligns with the responsibilities of a consultant. The ability to apply Eurocode standards for wind and seismic load definition can be invaluable when advising clients on compliance and best practices. The comprehensive knowledge gained through this course positions you as a knowledgeable and reliable resource for clients seeking steel design expertise.

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Architectural Engineer

Architectural Engineers focus on the structural and mechanical aspects of building design. This course will be very useful when working on steel building projects. The course will help solidify skills in modeling, analyzing, and designing steel elements, directly contributing to this role. You will learn how to define loads, design columns and beams, and design foundations. The course's detailed coverage of Eurocode standards for wind and seismic loads can enhance your ability to integrate structural integrity with architectural design. The emphasis on connection design is also relevant for ensuring the stability and aesthetic appeal of steel structures.

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Lecturer

A lecturer delivers courses and talks in their area of expertise. This course will be very useful if you are either aiming to create a course in structural steel design or are already in a university environment. The course focuses on the analysis, modelling, and design of structural steel under various loads, and can help with the knowledge required to prepare a course. The course's focus on detailing under Eurocode may provide the lecturer with ideas for areas that merit further investigation.

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Researcher

A researcher investigates a topic of interest or concern to discover new insights. This course will be useful if you are either involved in structural steel design or are aiming to conduct research on structural steel. The course focuses on the analysis, modelling, and design of structural steel under various loads. The course's focus on detailing under Eurocode may provide you with ideas for areas that merit further investigation. The course's content is applicable and relevant to the field of structural engineering.

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Construction Manager

A Construction Manager oversees construction projects, ensuring they are completed safely, on time, and within budget. This course will be very useful when working on steel building projects. While a Construction Manager doesn't necessarily perform the structural design themself, they need to understand the design principles and challenges involved. Concepts such as modeling, load definition, and element design will help when communicating with engineers and understanding project requirements. The skills learned in this course can help the Construction Manager make informed decisions and coordinate effectively with the design and construction teams.

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Project Engineer

A Project Engineer supports project managers and oversees technical aspects of engineering projects. This course can be helpful for Project Engineers involved in steel building construction. An understanding of structural design principles, load considerations, and steel element behavior can improve communication with design teams. The course's focus on design standards can help Project Engineers ensure compliance and quality control throughout the project lifecycle.

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Compliance Officer

A compliance officer ensures that an organization is following regulatory and legal requirements. If you are a compliance officer specializing in construction, this course may be useful. The focus on understanding structural design principles, load considerations, and design codes will allow the compliance officer to better identify if a construction project is in compliance with relevant regulations. Having an idea of the structural design will let the officer be more confident that structural assessments are robust.

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Steel Detailer

A Steel Detailer creates detailed drawings and plans for steel structures, translating the engineer's designs into practical fabrication and erection plans. This course may be useful. While the course focuses on analysis and design rather than detailing, the understanding of steel element behavior, connections, and load considerations can help a steel detailer in visualizing and accurately representing the structural components. Familiarity with steel design principles can lead to more efficient and error-free detailing.

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Field Engineer

A Field Engineer provides on site technical support for construction projects. This course may be useful when you are working on projects involving steel structures. Although not directly involved in the design process, understanding the principles behind steel building design, load transfer, and connection details can improve the effectiveness of a Field Engineer. The knowledge gained in this course can improve communication with engineers and contribute to effective problem solving on site.

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Estimator

An estimator prepares cost estimates of construction projects so that companies can effectively bid on them. This course may be useful when one is bidding on projects involving steel buildings. The better grasp one has of structural steel elements, connections, and structural drawings, the greater their precision and their estimates. This course provides familiarity with structural design principles, load considerations, and design codes, which will allow the estimator to improve estimate quality. Being able to visualize structure assembly helps improve accuracy for quantity takeoffs.

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Materials Engineer

A materials engineer is responsible for testing and assessing materials to ensure that they are fit for purpose. This course may be useful. While this course focuses on structural analysis of steel buildings, the knowledge of steel design principles is still helpful for the materials engineer. The insights gained from this course will help the engineer improve their materials testing plan. Understanding the design code will also help with materials approval.

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BIM Modeler

A BIM Modeler creates three dimensional models of building projects using BIM software. This course may be useful. While the course focuses on structural analysis of steel buildings, understanding structural design principles is still helpful for creating accurate BIM models. The insights gained from this course can help a BIM Modeler better understand how different elements function together, leading to more detailed and coordinated models.

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Reading list

We've selected two 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 (Steel building).

Putting Knowledge to Work

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Since the course mentions Eurocode for wind and seismic load definition, reviewing Eurocode 3 is crucial. This standard provides detailed guidelines for the design of steel structures, including material properties, design methods, and detailing requirements. Familiarity with Eurocode 3 will enable you to interpret and apply the design checks performed by Robot Structural Analysis according to European standards. is valuable as a reference text.

Putting Knowledge to Work

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Putting Knowledge to Work

Kindle Edition

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Steel Structures

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Comprehensive resource on steel structure design. It covers the behavior of steel members and connections under various loading conditions. It is commonly used as a textbook in structural engineering courses and provides a strong theoretical foundation for understanding the design principles implemented in Robot Structural Analysis. This book is valuable as a reference text.

Steel Structures: Design and Behavior

Hardcover

$$$$

Robot Structural Analysis (Steel building)

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