Advanced ETABS V2019 52 stories Tower different seismic sys from Udemy

With the last version of ETABS (2019)

First of all we will show the newest features in ETABS v19

Part 1,2,3: learn structural design of R.C Tower 52 stories from A to Z included all structural element (columns, beams, slabs, foundations, shear walls, earthquake and wind design, check deflection) using different earthquake systems (Shear wall system, moment frame system, and dual system) very important part will show you the needs of well study of earthquake system resistance parameters when structural designing Tall Buildings

Part 4 :we will use in this course viscous damper and show the benefit of using them and how we can model them into ETABS

Also we will learn in this course what is outrigger and how we can define and modeling it into ETABS V19 and we will show the benefits of using outrigger in high rise building very important part will show you the needs of well study of damper parameters when structural designing Tall Buildings

Part 5: show the effect of sub-modulus parameters (foundation type, and bearing capacity of soil) on the structural response of Tall buildings (story displacement, story drift, foundation settlement, and column forces) very important part will show you the needs of well study of geotechnical parameters when structural designing Tall Buildings

What's inside

Syllabus

Define modal cases

Introduction

General Introduction

New features in ETABS V19 (what's new)

Traffic lights

Read about what's good

what should give you pause

and possible dealbreakers

Explores the design of high-rise buildings using ETABS V2019, which is a widely used software in the structural engineering industry

Covers different seismic systems like shear wall, moment frame, and dual systems, which are essential for designing earthquake-resistant tall buildings

Includes the use of viscous dampers and outriggers, which are advanced techniques for improving the seismic performance of high-rise structures

Examines the effect of sub-modulus parameters on the structural response of tall buildings, which is crucial for understanding soil-structure interaction

Uses ETABS V2019, so learners should ensure they have access to this specific version of the software to follow along with the course

Includes civil engineering general knowledge, which may be useful for students but may not be directly related to advanced ETABS usage

Reviews summary

Advanced etabs tall building analysis

According to students, this course offers a comprehensive and practical guide to analyzing tall buildings using ETABS V2019. Learners particularly appreciate the detailed walkthrough of designing a 52-story tower, providing hands-on experience with realistic scenarios. The course effectively covers different seismic systems and advanced elements like viscous dampers and outriggers. While generally well-received for its specific focus and practical examples, some feedback suggests certain sections could benefit from more theoretical depth or improved pacing for those less familiar with the software or advanced concepts.

Utilizes latest ETABS version.

"Good overview of the new features in ETABS V2019."

"Applying the concepts directly in the latest software version was helpful."

"Course steps follow the V2019 interface well."

Covers dampers, outriggers, seismic systems.

"The sections on viscous dampers and outriggers were particularly valuable and not often covered elsewhere."

"Liked the comparison and analysis of different seismic systems for high-rise structures."

"Gained insight into how sub-modulus parameters affect building response."

Focuses on real-world tower design.

"The detailed example of the 52-story tower design was incredibly useful for understanding practical application."

"This course gave me the confidence to tackle tall building projects in my work."

"Learned how to model and analyze a complex structure from start to finish, very hands-on."

Explanations or speed could improve.

"Some parts felt a bit rushed, making it hard to follow without pausing frequently."

"Could benefit from more detailed explanations on certain theoretical aspects."

"Assumes a good baseline knowledge of ETABS and structural mechanics."

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 Advanced ETABS V2019 52 stories Tower different seismic sys with these activities:

Review Structural Analysis Fundamentals

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Reinforce your understanding of structural analysis principles, which are essential for comprehending the behavior of high-rise buildings under various loads.

Browse courses on Structural Analysis

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Review textbooks and notes on structural analysis.
Work through practice problems related to load distribution and stress analysis.

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 designing the structural elements of the tower.

View Loose Leaf for Design of Concrete Structures on Amazon

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Read chapters related to column, beam, and shear wall design.
Work through example problems to reinforce your understanding.

ETABS Modeling Practice

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Enhance your proficiency in ETABS by practicing modeling various structural elements and applying different seismic systems.

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Model a simple multi-story building in ETABS.
Apply different seismic loads and analyze the structure.
Experiment with different meshing options and observe their impact on results.

Four other activities

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Show all seven activities

Review 'Earthquake Resistant Design of Structures' by Pankaj Agarwal and Manish Shrikhande

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Gain a deeper understanding of earthquake-resistant design principles, which are essential for designing safe and resilient high-rise buildings.

View Earthquake Resistant Design of Structures on Amazon

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Read chapters related to seismic hazard analysis and structural dynamics.
Study the design of different structural systems for earthquake resistance.

Document a Case Study

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Solidify your understanding by documenting a case study of a high-rise building designed with ETABS, focusing on the seismic design aspects.

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Research a real-world high-rise building project.
Document the structural design process, including the seismic system used.
Explain how ETABS was used in the design and analysis.

Optimize Damper Placement

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Apply your knowledge of viscous dampers by conducting a project to optimize their placement in a high-rise building model in ETABS.

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Create an ETABS model of a high-rise building.
Model viscous dampers at different locations in the structure.
Analyze the building's response to seismic loads with different damper configurations.
Determine the optimal damper placement for minimizing story drift and base shear.

Generate a Design Report

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Practice generating a comprehensive design report from ETABS, including all relevant analysis results and design calculations.

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Analyze a high-rise building model in ETABS.
Extract relevant analysis results, such as story drifts, base shears, and member forces.
Prepare design calculations for critical structural elements.
Compile all information into a well-organized design report.

Career center

Learners who complete Advanced ETABS V2019 52 stories Tower different seismic sys 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 directly addresses the needs of a Structural Engineer by providing in-depth knowledge of designing high-rise buildings using ETABS. The course specifically focuses on the design of 52-story towers using different seismic systems like shear wall, moment frame, and dual systems. A structural engineer can leverage the course's content on modeling viscous dampers and outriggers to enhance building performance under seismic loads. The course also examines the impact of soil sub-modulus parameters, which are essential for foundation design and overall structural integrity. Any structural engineer who wants to specialize in high-rise building design should take this course.

See salaries and explore the career path for Structural Engineer

High Rise Building Designer

A high rise building designer focuses on the unique challenges of designing tall structures, including structural stability and wind resistance. This course provides specialized knowledge in designing 52-story towers using ETABS V2019, with an emphasis on different seismic systems. Learning to model and analyze structures with shear walls, moment frames, and dual systems directly supports the role of high rise building designer. The course's coverage of viscous dampers and outriggers is particularly relevant, as these elements are often used to improve the performance of tall buildings. The course also considers sub-modulus parameters, crucial for accurate foundation design, and ultimately the stability of high rise buildings. Aspiring high rise building designers will find immense value in this course.

See salaries and explore the career path for High Rise Building Designer

Earthquake Engineer

An earthquake engineer specializes in designing structures that can withstand seismic activity. This course is invaluable for an earthquake engineer because it focuses on the design of a 52 story reinforced concrete tower using different earthquake systems. The course details the design considerations for shear wall systems, moment frame systems, and dual systems, all vital for earthquake-resistant design. By learning how to model viscous dampers and outriggers in ETABS, an earthquake engineer can improve the seismic performance of tall buildings. The course also emphasizes the importance of understanding earthquake system resistance parameters. An earthquake engineer wishing to expand their repertoire of techniques would greatly benefit from this course.

See salaries and explore the career path for Earthquake Engineer

Structural Analyst

A structural analyst uses software to model and analyze the structural integrity of buildings and other structures. This course directly enhances the skills of a structural analyst by providing extensive training in ETABS V2019. The course teaches how to model a 52-story reinforced concrete tower, apply different seismic systems, and analyze structural behavior. Learning to define modal cases, apply loads, and interpret results are essential tasks for a structural analyst. The course's coverage of viscous dampers, outriggers, and sub-modulus parameters allows for a more detailed and accurate analysis of complex structural systems. Anyone who wishes to specialize in structural analysis of tall buildings should enroll in this course.

See salaries and explore the career path for Structural Analyst

Civil Engineer

A civil engineer designs, constructs, and maintains the built environment, including buildings and infrastructure. This course helps a civil engineer specialize in the structural design of high-rise buildings. The course delves into the use of ETABS V2019 for designing a 52-story reinforced concrete tower, covering all structural elements from columns to foundations. Civil engineers can learn how to model different earthquake systems and incorporate viscous dampers and outriggers. The course also covers the effect of sub-modulus parameters on structural response, which is relevant to foundation design. The course also covers general civil engineering knowledge, relevant to anyone in this field.

See salaries and explore the career path for Civil Engineer

CAD Technician

A computer aided design technician creates technical drawings and plans based on engineers' and architects' specifications. This course is helpful for CAD technicians who want to specialize in structural projects. The course focuses on using ETABS V2019 to model a 52-story reinforced concrete tower, which involves creating detailed drawings of structural elements like columns, beams, and shear walls. The course specifically mentions preparing DXF files to export to ETABS, a crucial skill for CAD technicians. Understanding how to define materials, sections, and loads in ETABS will enable to create accurate and informative structural drawings. CAD Technicians who want to expand their repertoire of skills in CAD will benefit from this course.

See salaries and explore the career path for CAD Technician

Geotechnical Engineer

A geotechnical engineer investigates subsurface conditions and materials to assess the suitability of sites for construction. This course touches on aspects relevant to geotechnical engineering, particularly the effect of sub-modulus parameters on the structural response of tall buildings. Understanding how foundation type and soil bearing capacity affect story displacement, drift, and foundation settlement is crucial for geotechnical engineers. The course emphasizes the importance of studying geotechnical parameters when structurally designing tall buildings. While not a primary focus, the course's consideration of soil-structure interaction makes it somewhat relevant to a geotechnical engineer, particularly when working on high-rise projects.

See salaries and explore the career path for Geotechnical Engineer

Architect

An architect designs buildings and other structures, focusing on both aesthetics and functionality. This course may be useful for architects who wish to gain a deeper understanding of structural engineering principles, especially as they relate to high-rise buildings. While architects may not directly use ETABS, understanding the behavior of different structural systems, such as shear walls, moment frames, and dual systems, can inform their designs. The course's coverage of seismic design considerations and the use of viscous dampers and outriggers could also be insightful. Knowledge of these features will lead to better, more comprehensive designs.

See salaries and explore the career path for Architect

Construction Manager

A construction manager plans, coordinates, and oversees construction projects from start to finish. This course may provide a broader understanding of the structural design aspects of high-rise buildings. While a construction manager may not directly use ETABS, understanding the principles behind the structural design, especially for seismic considerations, can improve decision making on site. The course's overview of different earthquake systems, viscous dampers, and outriggers gives the construction manager valuable insight into the complexities of high-rise construction. The course's discussion of the construction process step by step is also helpful for these professionals.

See salaries and explore the career path for Construction Manager

Building Inspector

A building inspector examines buildings and structures to ensure compliance with building codes and regulations. This course may be useful for a building inspector seeking to understand the structural design of high-rise buildings. While the inspector may not directly use ETABS, understanding the design principles behind different seismic systems, viscous dampers, and outriggers is beneficial. The course discusses the importance of understanding earthquake system resistance parameters and geotechnical parameters, which can aid a building inspector in evaluating structural safety and compliance. It will broaden the building inspector's understanding of structures.

See salaries and explore the career path for Building Inspector

Facade Engineer

A Facade Engineer specializes in the design, engineering, and construction of building facades. This course may be useful for Facade Engineers who want to understand the structural behavior of high rise buildings, as the facade is crucial to the mechanical performance of high rise buildings. While Facade Engineers may not directly use ETABS, understanding the behavior of different structural systems, such as shear walls and moment frames, can inform their facade designs. The course's coverage of seismic design considerations might be insightful. Knowledge of these features will lead to safer facade designs.

See salaries and explore the career path for Facade Engineer

Sustainability Consultant

A sustainability consultant advises clients on how to make their projects more environmentally friendly and sustainable. This course can help a sustainability consultant better understand the structural implications of sustainable design choices. While a sustainability consultant may not use ETABS, understanding how different structural systems impact material usage and energy efficiency can inform their recommendations. For example, learning about high-strength concrete, which is discussed, can inform sustainable material usage and energy efficiency. Any sustainability professionals who want to advise on building designs should take this course.

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Fire Protection Engineer

A fire protection engineer designs and implements fire safety systems in buildings and other structures. This course may be useful for a fire protection engineer seeking to understand how structural design influences fire safety. The course covers structural elements like shear walls and columns, which are critical for maintaining building integrity during a fire. Understanding how different seismic systems behave under load can provide insights into structural behavior during a fire event. While fire protection engineers do not directly use ETABS, awareness of structural design principles can contribute to safer fire protection strategies.

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Wind Engineer

A wind engineer analyzes the effects of wind on structures and designs systems to mitigate wind-induced loads. This course may supplement the work of a wind engineer. A wind engineer would find this course more beneficial if wind loads are defined and analyzed according to wind engineering practices. While wind engineers may not directly use ETABS, understanding the general behavior of different structural systems, such as shear walls and moment frames, can inform their designs. The course's discussion of the effect of geotechnical parameters might be insightful and will lead to safer structural designs.

See salaries and explore the career path for Wind Engineer

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. This course may broaden an urban planner's awareness of the structural considerations involved in high-rise building design. While an urban planner may not directly use ETABS, understanding the complexities of designing tall structures to withstand seismic loads and soil conditions can inform urban planning decisions. The course's general civil engineering knowledge might be valuable for planners dealing with infrastructure and building projects. Knowledge beyond their fields would be useful for urban planners.

See salaries and explore the career path for Urban Planner

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 Advanced ETABS V2019 52 stories Tower different seismic sys.

Loose Leaf for Design of Concrete Structures

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Comprehensive guide to reinforced concrete design, covering topics such as flexural design, shear design, and column design. It provides a strong foundation for understanding the design principles used in ETABS for high-rise buildings. It is commonly used as a textbook in civil engineering programs and valuable reference for practicing structural engineers.

Loose Leaf for Design of Concrete Structures

Paperback

$$$$

EARTHQUAKE RESISTANT DESIGN OF STRUCTURES

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Provides a comprehensive overview of earthquake-resistant design principles and practices. It covers topics such as seismic hazard analysis, structural dynamics, and design of various structural systems for earthquake resistance. It valuable resource for understanding the theoretical background behind the seismic design features in ETABS and for interpreting the results of seismic analyses.

Earthquake Resistant Design of Structures

Paperback

Advanced ETABS V2019 52 stories Tower different seismic sys

What's inside

Syllabus

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Reviews summary

Advanced etabs tall building analysis

Activities

Career center

Reading list

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