ETABS & SAFE : Advanced Course For RCC and Steel Structures from Udemy

What's inside

Syllabus

Basics of Etabs

Initial Setting

Defining materials in ETABS is a straightforward process. The following is a general description of the steps involved:

From the main menu, select "Define" and then "Materials."
In the Materials Editor window, select "New" to create a new material.
In the Material Properties window, enter a name for the material and select the type of material from the list of predefined options, such as steel, concrete, wood, or masonry.
Input the material's properties such as Young's modulus, Poisson's ratio, and density.
Specify the material's behavior under specific loading conditions, such as linear or non-linear behavior, and the material's strength characteristics, such as yield and ultimate strength.
To assign the material to an element or a group of elements in the model, select "Assign" and then select the element or group of elements to which the material should be applied.

It's important to note that some of the material properties are optional and depend on the type of material you have selected. Also, you can also create custom materials with specific properties and assign them to different elements in the model which makes it easy to design and analyze structures made of a variety of materials.

Defining sections in ETABS is a process that allows users to specify the geometric and material properties of a structural element, such as a beam or column. The following is a general description of the steps involved in defining a section in ETABS:

From the main menu, select "Define" and then "Sections."
In the Section Editor window, select "New" to create a new section.
Select the type of section you would like to define, such as a rectangular, circular, or I-shaped section.
Input the section's properties, such as its dimensions, material properties, and reinforcement details.
Assign the section to an element or a group of elements in the model by selecting "Assign" and then selecting the element or group of elements to which the section should be applied.
You can also import sections from external files like .csv, .xlsx and .txt

It's important to note that some of the section properties are optional and depend on the type of section you have selected. Also, ETABS allows you to create custom sections with specific properties and assign them to different elements in the model, making it easy to design and analyze structures with complex geometry.

Navigating in ETABS involves moving around and viewing the model from different perspectives. The following is a general description of the different ways to navigate in ETABS:

Zoom: You can zoom in or out of the model by using the scroll wheel on your mouse or by using the zoom tool located on the toolbar.
Pan: You can pan the model by holding down the middle mouse button and moving the mouse in the desired direction.
Rotate: You can rotate the model by holding down the right mouse button and moving the mouse in the desired direction.
View Presets: ETABS has a set of predefined views, such as top view, front view, and side view, which can be quickly accessed from the "View" menu.
View Control: The View Control dialog box allows you to control the view direction, rotation, and zoom level.
Orthographic and Perspective View: You can switch between orthographic and perspective view to see the model from different angles.
Walk-through: You can navigate through the model by walking through it as if you were inside the building.
3D View: You can navigate through the model in 3D by using the 3D View tool, which allows you to rotate, zoom and pan the model in 3D.

Overall, ETABS navigation is user-friendly and intuitive, allowing users to easily move around and view the model from different perspectives, making it easy to design and analyze structures.

Modeling structural components in ETABS involves creating and defining the geometry, materials, and loads of the various elements that make up a building's structure. The following is a general description of the steps involved in modeling structural components in ETABS:

Create a new model by selecting "File" and then "New."
Define the grid system by specifying the coordinates of the grid lines and the levels of the building.
Define the material properties of the structural elements by selecting "Define" and then "Materials."
Define the section properties of the structural elements by selecting "Define" and then "Sections."
Draw the structural elements, such as beams and columns, by using the drawing tools.
Assign the materials and sections to the structural elements by selecting "Assign" and then selecting the element or group of elements to which the material or section should be applied.

All about Stories

Advance Tool Explained

Initial Setting for Modelling of Staircase

Modelling of Staircase ( Method 1 )

Modelling of Staircase ( Method 2 )

Text Book Problems ( Beams )

Example 1

Example 2

Example 3

Text Book Problem ( Truss )

2D Truss Problem

Residential Building Design Real World Project

Reading the Architectural Drawing

Grid and Story Data

Define the Materials

Define the Section property

Modelling up to Plinth Beam

Modelling of 1st Floor

Modelling of Staircase

Restraints to Support

Assign releases to the Secondary Beam

Basic Load Defined

Brick Work Load Applied

Loads on Slabs

Replication completed

Modifications of Loads on Roofs

Glass Loads on extended Slab

Earth Quake Forces

Wind Road on Residential Building

Define and Assign Diaphragm

Meshing

Define the Load Combination

Check your Model

Diaphragm warning Solved

Analysis and Analysis Result

Design of Residential Building

Various Design Checks

Story Drift

Detailing of Longitudional Bars

Detailing of Lateral Ties of Column

Detailing of Beam ( Longitudinal Bars )

Detailing of Tie Member

High Rise Building ( 33 Story )

Understanding the Plan & Elevation

Initial Setup , Grids and Story data

Define the Material

Defining the Section

Modelling of Beam , Column , Slab and Wall

How to Check your Model

Story Correction

Assign the Releases

Assign support to the Structure

Define and assign the Pier Lable

Define the Response Spectrum

Basic load defined

Define and assign the Earth quake load

Wind Load defined with Concept and Applied

Define the Mass Source

Blockwork Load

Staircase Slab Defined

Wind load defined with Concept

Replication of Stairs

Mid landing Beam

Joining the Slabs of Staircase

Live Load reduction factor

Apply the Load on Staircase

Response spectrum in X,Y and Z direction

Setup Modal Cases

P-Delta Option

Meshing in Etabs

Re labelling in Etabs

Active degree of freedom

Setup Advance Sap Fire option

Default Load Combination

Modal Check and Analysis

Mode Analysis

3 mode running at the same time

Scaling of Response reduction to Seismic Force

Create a summary report in etabs

Detailed report in etabs

Story Drift and Number of Modes

Design of Column And Beam

Detailing of Column and Beam and Generating the Drawing

Design of Shear Wall

Detailing of Shear wall

Design of Slab

Detailing of SLAB

Full 3D View

Export Reaction to SAFE

How to import .F2k file into csi safe

Define Material in SAFE

Mat Foundation Defined in SAFE

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 ETABS & SAFE : Advanced Course For RCC and Steel Structures with these activities:

Review Structural Analysis Fundamentals

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Reinforce your understanding of structural analysis principles, which are essential for effectively using ETABS and SAFE.

Browse courses on Structural Analysis

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Review textbooks and notes on structural analysis concepts.
Work through practice problems related to beam and frame analysis.
Familiarize yourself with different types of loads and supports.

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

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Enhance your knowledge of steel structure design, which is essential for designing steel buildings in ETABS.

View Steel Structures: Design and Behavior on Amazon

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Read chapters related to steel beam and column design.
Study the design of steel connections.
Work through example problems to apply the design principles.

Review 'Design of Reinforced Concrete Structures' by Arthur Nilson

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Deepen your understanding of reinforced concrete design principles, which are crucial for interpreting and validating ETABS and SAFE results.

View Loose Leaf for Design of Concrete Structures on Amazon

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Read chapters related to reinforced concrete beam and column design.
Study the detailing requirements for reinforced concrete structures.
Work through example problems to apply the design principles.

Four other activities

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Practice ETABS Modeling with Sample Structures

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Improve your proficiency in ETABS modeling by replicating sample structures from textbooks or online resources.

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Select a sample structure with known dimensions and loads.
Create the model in ETABS, defining materials, sections, and loads.
Analyze the structure and compare the results with the textbook solutions.
Identify and correct any discrepancies in the model or analysis settings.

Create a Tutorial on ETABS Modeling Techniques

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Solidify your understanding of ETABS modeling by creating a tutorial for other students, focusing on specific techniques or features.

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Choose a specific ETABS modeling technique, such as defining diaphragms or applying wind loads.
Create a step-by-step tutorial with clear instructions and screenshots.
Record a video tutorial demonstrating the technique in ETABS.
Share the tutorial with other students and solicit feedback.

Generate a Structural Report for a Simple Building

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Practice generating a comprehensive structural report using ETABS and SAFE, including analysis results, design checks, and detailing information.

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Model and analyze a simple building structure in ETABS.
Export the analysis results to SAFE for foundation design.
Generate design reports for beams, columns, slabs, and foundations.
Compile the reports into a single document with a summary of the design process.

Design of a Multi-Story Building

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Undertake a comprehensive project to design a multi-story building using ETABS and SAFE, applying the concepts learned in the course.

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Select a building plan and define the structural system.
Model the building in ETABS, including all structural elements and loads.
Analyze the structure and perform design checks according to relevant codes.
Design the foundation in SAFE based on the ETABS analysis results.
Prepare a complete structural design report with drawings and calculations.

Career center

Learners who complete ETABS & SAFE : Advanced Course For RCC and Steel Structures will develop knowledge and skills that may be useful to these careers:

Structural Engineer

A Structural Engineer analyzes, designs, and oversees the construction of structures, ensuring their safety and stability. This course, with its focus on ETABS and SAFE software, directly helps in the efficient design of RCC and steel structures. The course covers residential buildings, high rise structures, and steel structures, matching the breadth of projects a Structural Engineer might handle. Further, skills in structural detailing are vital for this role; the course's coverage of detailing and generating structural sheets makes it a valuable asset. You will gain insight into solving model warnings and ensuring structural stability using ETABS, which can contribute to your success as a Structural Engineer.

See salaries and explore the career path for Structural Engineer

Structural Engineering Technician

A Structural Engineering Technician assists structural engineers in the design, analysis, and construction of buildings and other structures. This course, with its focus on ETABS and SAFE software, directly supports the daily tasks performed by a Structural Engineering Technician. You will gain hands-on experience in modeling, analyzing, and detailing structures. The course covers residential buildings, high rise structures, and steel structures. Generating structural sheets will also be quite helpful. The skills gained contribute to the success of a Structural Engineering Technician.

See salaries and explore the career path for Structural Engineering Technician

Design Engineer

Design Engineers are responsible for creating and developing new engineering designs. With its coverage of ETABS and SAFE software, this course is directly applicable to the role of a Design Engineer focusing on structural projects. The knowledge of modeling and analyzing residential building designs is of particular value. You will learn detailing and generating structural sheets, which are essential parts of the design process. The hands-on experience gained in solving model warnings and ensuring structural stability can contribute to your design skills.

See salaries and explore the career path for Design Engineer

Structural Drafter

Structural Drafters create detailed drawings and plans for structures based on the specifications provided by structural engineers. This course specifically teaches structural detailing and the process of generating structural sheets using ETABS & SAFE. You will learn how to present designs for residential, high rise, and steel structures. The skills gained are directly applicable to the daily tasks of a Structural Drafter. The techniques for solving model warnings and ensuring structural stability are valuable additions. This course helps contribute to a Structural Drafter who is capable of producing accurate and reliable structural drawings.

See salaries and explore the career path for Structural Drafter

CAD Technician

CAD Technicians use computer aided design software to create technical drawings and plans. This course may be useful, because the knowledge of ETABS and SAFE software helps in generating structural drawings and details. You will learn about structural detailing and generating structural sheets, which are core activities for CAD Technicians. The course covers design of buildings with RCC and steel structures. Skills in using ETABS and SAFE can complement CAD skills, contributing to a competent CAD Technician.

See salaries and explore the career path for CAD Technician

Civil Engineer

Civil Engineers plan, design, and supervise the construction and maintenance of infrastructure projects. This course may be useful because the course specifically teaches ETABS and SAFE. You will learn how to model and analyze various types of structures, including residential buildings and steel structures. A Civil Engineer can use this knowledge to design and analyze building projects. The high rise building sections may be useful. The course covers handling model warnings and instability, which are skills valuable in this role.

See salaries and explore the career path for Civil Engineer

Architectural Engineer

Architectural Engineers integrate architectural design with engineering principles to design and construct buildings. This course may be useful because you will learn how to use ETABS and SAFE to analyze and design RCC and steel structures. You will gain knowledge of structural detailing and generating structural sheets, which are valuable skills for an Architectural Engineer. The course covers residential buildings and high rise buildings. The course's focus on solving model warnings and instability is useful in ensuring structural integrity, which contributes to the success of an Architectural Engineer.

See salaries and explore the career path for Architectural Engineer

BIM Modeler

BIM Modelers create and manage Building Information Models, which are digital representations of physical and functional characteristics of a facility. This course may be useful to a prospective BIM Modeler. The knowledge of ETABS and SAFE directly relates to creating accurate structural models. You will learn about modeling various structural components, including beams, columns, and frames. This course covers a wide range of structures, including residential buildings and high-rise buildings. The course also teaches structural detailing, which is an important aspect of BIM.

See salaries and explore the career path for BIM Modeler

Consulting Engineer

Consulting Engineers provide expert advice and design services to clients on a variety of engineering projects. This course, with its focus on ETABS and SAFE software, may be useful to a Consulting Engineer specializing in structural design. You will gain skills in structural design and detailing for a range of projects. This course covers residential buildings, high rise buildings, and steel structures. Solving model warnings and ensuring structural stability is valuable when working with the structural integrity of buildings.

See salaries and explore the career path for Consulting Engineer

Bridge Engineer

Bridge Engineers specialize in the design, construction, and maintenance of bridges. While this course focuses on buildings rather than bridges, it may be useful to a Bridge Engineer. This is because the knowledge of ETABS and SAFE software is transferable to bridge design. You will learn to model and analyze structures, which can be applied to bridge components. The course covers solving model warnings and instability, which are skills relevant to ensuring bridge integrity. Although a Bridge Engineer may require more specialized training, this course may build a foundation in structural analysis software.

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Project Engineer

Project Engineers assist in planning, coordinating, and executing engineering projects. This course may be useful to a Project Engineer involved in construction projects. While this course doesn't cover all aspects of project engineering, you will gain a better understanding of structural design and analysis. This course covers residential buildings, high rise buildings, and steel structures, all of which will be managed by the Project Engineer. The insight into structural detailing and modeling practices helps with communication and oversight, contributing to your success as a Project Engineer.

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Construction Manager

Construction Managers oversee construction projects, coordinating teams and ensuring projects are completed safely, on time, and within budget. While the course does not directly teach project management skills, it may be useful for a Construction Manager. This is because understanding structural design principles helps in coordinating with engineers and interpreting structural plans. You will also gain knowledge of the design and detailing of RCC and steel structures. This course covers how to generate structural sheets, which can be used to communicate with the project team. This course may help you to better manage construction projects that involve RCC and steel structures.

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Facilities Engineer

Facilities Engineers are responsible for maintaining and operating buildings and infrastructure. This course may be useful for a Facilities Engineer as it provides insights into the structural design and analysis of buildings. While this course may not cover all aspects of facilities engineering, the knowledge of ETABS and SAFE can help in better understanding the structural integrity of buildings. You will learn about modeling and analyzing different types of structures. The techniques for solving model warnings and ensuring structural stability are helpful. Understanding potential structural weaknesses of building components will make you a Facilities Engineer.

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Construction Supervisor

Construction Supervisors oversee construction sites and manage workers to ensure projects are completed according to plans and specifications. This course may be useful as an introduction for a Construction Supervisor working with RCC and steel structures. Understanding ETABS and SAFE can provide a better understanding of the structural aspects of a construction project. You will learn about modeling and analyzing different types of structures. While this course may not make one qualified to design, it can enhance communication and coordination with the engineering team.

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Geotechnical Engineer

Geotechnical Engineers investigate subsurface conditions and materials to assess the risk of soil and rock on construction projects. This course may be useful, as Geotechnical Engineers sometimes need to understand how structures will react to soil conditions. The knowledge of ETABS and SAFE can help you to better design and manage foundations. You will learn about modeling and analyzing structures and how they behave under different loads. The techniques for ensuring structural stability can be applied to foundation design. Although the primary focus of a Geotechnical Engineer is soil, this course may help your understanding of the interaction between the building and the ground.

See salaries and explore the career path for Geotechnical Engineer

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 ETABS & SAFE : Advanced Course For RCC and Steel Structures.

Loose Leaf for Design of Concrete Structures

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Provides a comprehensive overview of reinforced concrete design principles. It valuable resource for understanding the underlying theory behind the design codes used in ETABS and SAFE. The book covers topics such as flexural design, shear design, and detailing requirements. It is commonly used as a textbook in civil engineering programs.

Loose Leaf for Design of Concrete Structures

Paperback

$$$$

Steel Structures

Save

Offers a detailed explanation of steel structure design principles and behavior. It is useful for understanding the design of steel buildings and components within ETABS. The book covers topics such as tension members, compression members, beams, and connections. It valuable reference for both students and practicing engineers.

Steel Structures: Design and Behavior

Hardcover

$$$$

ETABS & SAFE

Advanced Course For RCC and Steel Structures

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What's inside

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Activities

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