ETABS Professional Course with 20 Story Building design from Udemy

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Syllabus

Introduction

In this introductory lecture you will learn the basic abilities of ETABS, user interface (menus, tools, model explorer, fonts, display colors, view options), View (3D, Plan, Elevation), Draw developed elevation definition

In this beginner lecture you will learn the difference between shell thin and membrane type slab by and example and exercise in ETABS

In this beginner lecture you will learn the concept of forces' envelope with an illustration and an exercise in ETABS with special emphasis on how to utilize this forces' combined effect in design

In this beginner lecture you will learn how to export grids from Autodesk Revit and Autodesk Autocad and then import them into ETABS

In this beginner lecture you will learn how to define rectangular grids with the help of an exercise on ETABS

In this beginner lecture you will learn how to define circular grids with the help of an exercise on ETABS

In this lecture you will learn how to define concrete and reinforcement material properties in ETABS

In this lecture you will learn how to define reinforced concrete beam and column sections with additional information regarding cracked modifiers from code

In this lecture you will learn how to define reinforced concrete slab sections with additional information regarding cracked modifiers from code

In the lecture, you will learn the basic modelling tools in ETABS with an exercise

In the lecture you will learn the reason for wall meshing and how to automatically mesh the walls as well as manually mesh the walls using different techniques

In the lecture you will learn the reason for slab meshing and how to automatically mesh the slab as well as manually mesh the slab using different techniques

In the lectures, you will learn how to hide, Un-hide by category or by elements and view 3D rendered view

In this lecture, you will learn how to create selection groups

In this lecture, you will learn how to merge two or more ETABS models in single model

In the lecture you will learn the difference between load patterns, load cases and load combinations. Also the types of loads and have a look on how to apply gravitational loads on the given structure

In this lecture, you will learn how to draw slab design strips and their rules for Direct Design Method for two way slab design

In this lecture, you will learn why and how to assign wall piers

In this lecture, you will learn how to check forces (Axial force, shear force and bending moment) in frame elements (Beams and columns) and in wall piers, reactions at base, displacements, tabulated results, graphical results and stresses in shell elements (Slabs)

In this lecture, you will learn how to define and apply Seismic Load (Earthquake Load) on the structure

In this lecture, you will learn how to define and apply Wind Load on the structure

In this lecture, you will learn how to define important parameters relating to code for design of Beams, Columns, Slabs and walls and how to generate design load combinations

In this lecture, you will learn what is P-Delta option and how to define P-Delta effects

In this lecture you will learn what is modal analysis, types, importance and how perform it along with results interpretation

In this lecture, you will learn how to check the results of linear static analysis (Seismic Base Shear, Story shears & Drifts)

In this lecture, provided brief introduction on column preliminary size calculations using catchment technique and then design the column in ETABS along with emphasis on the important checks to be kept in mind when designing with the help of exercise.

In this lecture, provided brief introduction on beams preliminary size calculations using ACI code and then design the beam for flexure and shear in ETABS along with emphasis on the important checks to be kept in mind when designing with the help of exercise.

In this lecture, you will learn how to calculate preliminary flat slab and drop panel thickness and size and then verify thickness for deflections and punching shear along with design of slab reinforcement and label in Autocad.

In this lecture, you will learn how to calculate preliminary 2-way slab on beams thickness and then verify thickness for deflections along with design of slab reinforcement and label in Autocad.

In this lecture, you will learn the basics of shear wall modelling, selecting thickness of the wall and then verifying the thickness and identifying wall failures. The lecture also includes wall design and reinforcement detailing with help of excel sheet included.

In this lecture, you will learn how to form seismic drift load case and check the inelastic drifts in the structure and compare with code limitations.

In this lecture, you will learn what is torsional irregularity, how to check it and how to incorporate its effects in design

In this lecture, you will learn how to form Wind drift load combination and check the drifts in the structure and compare with code limitations.

In this lecture, you will learn what is stiffness irregularity or soft story and how to check in a building

In this lecture, you will learn how to find coordinates of center of mass of a story in ETABS

In this lecture you will learn what is mass or weight irregularity and how to check it in ETABS

In this lecture, you will learn how to find coordinates of center of rigidity or lateral stiffness of a story in ETABS

In this lecture you will learn, how and when to add the orthogonal directional load combinations in ETABS

In this lecture you will learn what is linear dynamic analysis and it's types

In this lecture you will learn what is Response Spectrum Analysis and when to perform it

In this lecture you will learn the procedure for defining Response spectrum for a site, Response spectrum analysis load cases and combinations

In this lecture, you will learn how to process the Response Spectrum Analysis results, scale according to the code requirements and utilize these scaled results in drift check and design of structure

In this lecture you will learn what is Linear Time History Analysis and when to perform it

In this lecture you will learn the procedure for importing seismograms (Timehistories/earthquake ground motion data), match seismograms to site response spectrum and form Time History Load Cases

In this lecture, you will learn how to process the Time History Analysis results, scale according to the code requirements and utilize these scaled results in drift check and design of structure

In this lecture, we will focus on how to allow Etabs to simulate the cracking of reinforced concrete slab for computing long-term deflection

In this lecture, we will learn how to use the Finite element method to design reinforced concrete slabs with drop panels

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Uses ACI and ASCE codes, which are widely adopted in structural engineering practice, ensuring relevance to real-world projects and industry standards

Covers linear dynamic analysis and response spectrum analysis, which are essential for seismic design and understanding structural behavior under dynamic loads

Includes hands-on exercises on a 20-story building, providing practical experience in modeling, analysis, and design of high-rise structures

Explores advanced topics like non-linear cracked deflection and finite element method for slab design, catering to engineers seeking in-depth knowledge

Requires familiarity with structural design concepts and codes, which may necessitate prior coursework or experience in structural engineering

Focuses on ETABS 2019 and 2022, so learners should ensure compatibility with their project requirements and software availability

Reviews summary

Professional etabs design course

According to learners interested in professional structural design, this course aims to provide a comprehensive guide to using ETABS software, focusing on practical application with a detailed 20-story building project. It covers essential topics from modeling and loading (per ASCE 7-10) to analysis and design of reinforced concrete elements (using ACI code), including advanced topics like dynamic analysis and irregularity checks. While structured to follow a logical sequence, prospective students should be prepared to have access to ETABS software and possess foundational structural engineering knowledge.

Design examples use ACI and ASCE codes.

"It's useful that the course references ACI and ASCE codes for design parameters."

"Focusing on specific codes like ASCE 7-10 adds relevance for many engineers."

"Understanding how to apply code requirements in ETABS is valuable for practice."

Covers many key ETABS features.

"I feel the course offers a good overview of essential ETABS functionalities."

"It seems to cover everything from basic modeling to complex dynamic analysis."

"The syllabus indicates broad coverage of structural elements and checks."

Features a large building design project.

"Working through the 20-story building design appears to be very practical."

"I appreciate the hands-on approach demonstrated with the exercise files."

"Using a large-scale project helps solidify complex concepts and application."

Requires access to ETABS software.

"Prospective learners need to be aware that ETABS software is required to follow along."

"Accessing the necessary ETABS license might be a hurdle for some students."

"Make sure you have the software installed and ready before starting the course."

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 Professional Course with 20 Story Building design with these activities:

Review ACI 318 Code Requirements

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Reinforce your understanding of the ACI 318 code, which is essential for reinforced concrete design in ETABS.

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Download the latest version of ACI 318.
Review chapters on flexure, shear, and axial load.
Solve practice problems related to code provisions.

Practice Modeling Simple Structures in ETABS

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Improve your ETABS modeling skills by practicing with simple structures before tackling complex 20-story buildings.

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Model a simple two-story frame structure.
Apply gravity and lateral loads to the model.
Analyze the structure and interpret the results.
Compare the results with hand calculations.

Review 'Structural Concrete: Theory and Design' by M. Nadim Hassoun and Akthem Al-Manaseer

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Deepen your understanding of reinforced concrete design principles, which are essential for effective ETABS modeling and analysis.

View Structural Concrete: Theory and Design on Amazon

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Obtain a copy of 'Structural Concrete: Theory and Design'.
Read chapters related to reinforced concrete design.
Work through example problems to reinforce understanding.

Four other activities

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Review 'Seismic Design of Buildings' by Michael R. Lindeburg

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Enhance your knowledge of seismic design principles, which are critical for high-rise building design in ETABS.

View PPI PE Civil Study Guide, 17th Edition eText -... on Amazon

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Obtain a copy of 'Seismic Design of Buildings'.
Focus on chapters related to dynamic analysis and seismic loading.
Relate the concepts to the ETABS software's capabilities.

Document ETABS Modeling Best Practices

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Solidify your understanding of ETABS by creating a document outlining best practices for modeling various structural elements.

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Research best practices for modeling beams, columns, and slabs.
Document the steps involved in creating accurate models.
Include screenshots and explanations to illustrate the process.
Share your document with other students for feedback.

Follow Advanced ETABS Tutorials

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Refine your ETABS skills by following advanced tutorials on topics such as nonlinear analysis and performance-based design.

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Search for advanced ETABS tutorials online.
Select tutorials that cover topics not explicitly covered in the course.
Follow the tutorials step-by-step, applying the techniques to your own models.

Design a Small Building Using ETABS

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Apply your ETABS skills to design a small building, reinforcing your understanding of the entire design process.

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Select a small building design (e.g., a three-story office building).
Model the building in ETABS, including all structural elements.
Apply appropriate loads and load combinations.
Analyze and design the structure according to ACI 318.
Prepare a design report summarizing your findings.

Career center

Learners who complete ETABS Professional Course with 20 Story Building design will develop knowledge and skills that may be useful to these careers:

Structural Engineer

A structural engineer analyzes, designs, and oversees the construction of buildings and other structures. This course in ETABS software, focusing on reinforced concrete structural design, directly equips one with essential skills for modeling, analyzing, and designing structures, specifically using ETABS, a widely used structural design software. You will learn to model a 20-story building, giving you experience with similar projects. The structural design concepts are based on ACI and ASCE codes, which helps build a strong foundation for professional practice as a structural engineer. This course emphasizes practical application is crucial for success in this field.

See salaries and explore the career path for Structural Engineer

Civil Engineer

A civil engineer is responsible for the design, construction, and maintenance of the built environment, including buildings, roads, bridges, and other infrastructure. This ETABS course directly contributes to structural analysis and design skills, a core competency for civil engineers specializing in structural engineering. The course’s focus on a 20-story building offers experience in high-rise design. The course covers topics like seismic and wind load analysis per ASCE 7-10; learning these topics may be useful for a civil engineer. The course emphasizes design practice and knowledge utilized on a professional level.

See salaries and explore the career path for Civil Engineer

Design Engineer

A design engineer focuses on creating and developing designs for various products or structures, often using computer-aided design (CAD) software. This ETABS course directly enhances the structural design skills needed for designing buildings. The course teaches how to use ETABS software to create models as well as how to analyze and design reinforced concrete structures. The focus on a 20-story building design, is an ideal introduction to complex structural design projects. Design engineers who complete this course have an understanding of ACI and ASCE codes for structural design.

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Project Engineer

A project engineer oversees engineering projects from conception to completion, ensuring they are completed on time, within budget, and according to specifications. While project engineers don't always perform the detailed structural design themselves, they need a solid understanding of the engineering principles involved. This course in ETABS software provides valuable insight into the structural design process, especially for reinforced concrete buildings. Understanding structural analysis, design based on ACI and ASCE codes, and how to review structural models built by structural engineers would enable the project engineer to complete their duties.

See salaries and explore the career path for Project Engineer

Construction Engineer

A construction engineer manages and supervises construction projects, ensuring that they are built according to the design specifications and safety standards. This ETABS course helps build a foundation in structural design principles and the use of ETABS software, a standard tool in the construction industry. The course's focus on a 20-story building design may be useful for understanding the structural considerations involved in large construction projects. The understanding of structural behavior, load analysis, and design codes (ACI and ASCE), may be useful when dealing with contractors and subcontractors.

See salaries and explore the career path for Construction Engineer

BIM Modeler

A BIM modeler creates three dimensional models of buildings and infrastructure using Building Information Modeling software. This course will help those who wish to become BIM modelers. The course discusses importing grids from Revit to ETABS. The course will help you merge multiple ETABS models. As BIM Modeler, it helps to know how to verify the accuracy of the model. The BIM modeler will be able to spot errors in the model because the course teaches modelling reviewing.

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CAD Technician

A CAD technician, or computer-aided design technician, uses software to create technical drawings and plans. Structural projects depend on drawings and plans, and it is important that CAD Technicians are able to translate engineering instructions into technical drawings. This ETABS professional course can help a CAD technician work with structural engineers. The course uses ETABS software, so the CAD technician will have confidence that they are providing accurate drawings to the engineering team. It also helps to know the basics of structural engineering.

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Architect

An architect designs buildings and other structures, focusing on both their aesthetic appearance and functional performance. While architects typically do not perform detailed structural engineering calculations, an understanding of structural principles is essential for creating safe and buildable designs. This course helps an architect become familiar with ETABS, a software used by structural engineers. The course mentions importing grids from AutoCAD, a software also used by architects. The architect can communicate more effectively with structural consultants.

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Urban Planner

An urban planner develops plans and programs for the use of land, helping to create communities, accommodate population growth, and revitalize physical facilities in towns and cities. Urban planners consider many factors, one of which is the structural integrity of buildings. An urban planner may find this ETABS course helpful because it provides an understanding of the structural design when evaluating a project. The knowledge of structural design considerations helps an urban planner make informed decisions about the feasibility and safety of development projects.

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Sustainability Consultant

Sustainability consultants advise organizations on how to operate in a more environmentally responsible manner, reducing their carbon footprint and promoting sustainable practices. This course may assist those who want to become sustainability consultants. The course focuses on reinforced concrete design using structural design software. Sustainable design involves using materials efficiently and the design must be optimized. Becoming familiar with ETABS software may be useful when evaluating proposals or recommending design changes.

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Cost Estimator

Cost estimators collect and analyze data to estimate the time, money, materials, and labor required for construction projects. Cost estimators need to understand the different components that make up a building, including structural elements. This course provides an understanding of reinforced concrete structural design using ETABS software. The course focuses on modeling buildings and analyzing loads. Understanding the quantities involved in these tasks can lead to more accurate cost estimates. The course may be useful.

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Facilities Manager

Facilities managers are responsible for the upkeep and maintenance of buildings and other infrastructure, ensuring they are safe, functional, and compliant with regulations. While facilities managers do not typically perform structural design work, they should have a general understanding of structural systems. This course, which focuses on reinforced concrete building design using ETABS software, may be useful in providing a facilities manager with insights into structural behavior, load paths, and potential issues that may arise. The course may be useful.

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Construction Manager

A construction manager plans, coordinates, and oversees construction projects from start to finish. While they do not perform the detailed structural analysis themselves, they must understand structural drawings and specifications to ensure the project is built according to the design. The ETABS course will help them understand structural design principles and the use of design software. The course’s coverage of ASCE and ACI codes may be useful when communicating with engineers and subcontractors. The course may be useful.

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Real Estate Developer

A real estate developer oversees the development of land and buildings for residential, commercial, or industrial purposes. While a real estate developer will hire structural engineers, this course may be useful. The course may help with understanding the structural implications of building design decisions. The course focuses on reinforced concrete building design using ETABS software. A real estate developer may find the concepts useful when evaluating building design decisions.

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Insurance Underwriter

Insurance underwriters evaluate risk and determine the terms and conditions of insurance policies. The course focuses on structural design using ETABS software. The course may be useful in understanding the structural elements of a building. Underwriters who deal with construction or property insurance may find the concepts useful when assessing risk. This course may be useful.

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ETABS Professional Course with 20 Story Building design

What's inside

Syllabus

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Reviews summary

Professional etabs design course

Activities

Career center

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