Learn ETABS & SAFE in the Structural Design of 15 Stories RC from Udemy

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Syllabus

Introduction

Introduction to the course, what we will learn ? Description of the project worked on. Also in this section we define the dimension of columns, Shear Walls, and Retaining Walls for design and check them in the Software.

Definition of Waffle Slabs, types of Waffles Slabs, when we use Waffle Slab type 1, how we determine the thickness of Waffle Slab to design and check it in the Software.
Definitions of hidden beams and calculation of beams dimensions width and depth

Definition of Waffle Slabs, types of Waffles Slabs, when we use Waffle Slab type 2, how we determine the thickness of Waffle Slab to design and check it in the Software.
Definitions of hidden and drop beams and calculation of beams dimensions width and depth

Definition of Ribbed Slab, when we use Ribbed Slab, how we determine the thickness of Ribbed Slab to design and check it in the Software.
Definitions of hidden and drop beams and calculation of beams dimensions width and depth

Definition of Flat Slab, when we use Flat Slab, how we determine the thickness of Flat Slab to design and check it in the Software.
Definitions of drop beams and calculation of beams dimensions width and depth

Definition of Solid Slab, when we use Solid Slab, how we determine the thickness of Solid Slab to design and check it in the Software.
Definitions of drop beams and calculation of beams dimensions width and depth

How we can easily modeling the stairs and design them in the Software

In this class we did not start learning the program, but only a quick way to draw and to model the building from exporting from AutoCad to ETABS

Lecture 2 Define number of stories, heights, and grids on Etabs

Lecture 3 Define Materials

Lecture 4 Define Sections

Lecture 5 Shear Walls Drawings and Pier Labels assign

Lecture 6 Retaining Walls Drawing

Lecture 7 Columns Drawing

Lecture 8 Beams Drawing

Lecture 9 Stairs Drawing

Lecture 10 Slabs Drawing

Lecture 11 Meshing of Slabs and Walls

Lecture 12 Supports Modeling

Lecture 13 Define loads on slabs

Lecture 14 Loads on the beams

Lecture 15 Define earthquake Loads static case

Lecture 16 Define Earthquake Loads Dynamic case

Lecture 17 Define wind loads

Lecture 18 Define Diaphragms

Lecture 19 Define mass source

Lecture 20 Define modal cases

Lecture 21 Define stiffness modifiers

Lecture 22 Check the model

Lecture 23 Define loads combinations

Lecture 24 Center of mass and center of rigidity

Lecture 25 Scale earthquake loads

Lecture 26 Check story displacement

Lecture 27 Check story drift

Lecture 28 Columns design

Lecture 29 Shear wall design

Lecture 30 Prepare the model for exporting to safe

Lecture 31 Check Deflection in Safe

Lecture 32 Waffle Slab and beams design

Lecture 33 Ribbed slab design

Lecture 34 Flat and solid slabs design and punching shear check

Lecture 35 Isolated foundation design

Lecture 36 Combined foundation design

Lecture 37 Strip foundation design

Lecture 38 Mat foundation design

Thank you

Advanced Tricks in ETABS to change the model.

Advanced How to Draw L Shape column in ETABS with section designer

Advanced How to draw Stairs in ETABS

Advanced Design a swimming pool in ETABS

Advanced P-delta check in ETABS

Lecture 52: Advanced SAFE Design Piles foundation in ETABS, SAFE and ALLPILES

Lecture 53 Advanced ASCE code earthquake definition

Lecture 54: Advanced Nonlinear Pushover Analysis

Lecture 55: Advanced Soft story check irregularity

Lecture 56: Example 2 Design of a mosque: definition and prepare DXF file

Lecture 57: Example 2 Design of a mosque: modeling in ETABS

Lecture 58: Analysis and design of columns, slab and beams in ETABS SAFE and SAP

Lecture 59: Example 2 Design of a mosque: Analysis and design of the Dome in SAP

Lecture 60: Analysis and design of the minaret + foundation in ETABS and SAFE

Lecture 61: Create report and detailing drawings in ETABS

Lecture 62: Modeling fluid viscous dampers FVD to resist lateral loads in ETABS

Lecture 63: Assign temperature loads to the building in ETABS

Lecture 64:Eartquake system percentage for shear wall and dual system or MRF

Merge two model ETABS in one file and show rendered view

what we can do in ETABS

General Introduction

New features in ETABS V19 (what's new)

Shear wall, special moment frame, and dual system Introduction

Viscous damper Introduction

Effect of sub modulus parameter Introduction

Define and modeling the outrigger in ETABS

Results with the outrigger

Moment frame modeling in ETABS

Results with moment frame system

Dual system modeling in ETABS

Results with dual system

Fluid Viscous Damper Definition

Fluid Viscous Damper Modeling in ETABSv19

Effect of Fluid Viscous Damper on the response spectrum of the Tower

Effect of sub modulus parameter on High Rise Buildings

Additional knoweldge

ETABS- P Delta Effects by Dr. Pramin

Reinforcement Detailing of Beams and Columns

Detailing of RCC Building by CSI Detail v18 using Etabs result -- CSI detailing

Newest

Civil Engineers - Evolution of Civil

Civil Engineering motivational

12 Steps of construction

Building construction process step by step

Structural Engineer's Checklists to Site Inspection - Checklists To Consider Dur

For Arabic Student here is the same course same steps but in Arabic language

Lecture 1

Lecture 2

Lecture 3-1

Lecture 3-2

Lecture 4-1

Lecture 4-2

Lecture 5-1

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 Learn ETABS & SAFE in the Structural Design of 15 Stories RC with these activities:

Review Structural Analysis Fundamentals

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Strengthen your understanding of structural analysis principles to better grasp ETABS and SAFE's underlying calculations.

Browse courses on Structural Analysis

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Review textbooks or online resources on structural analysis.
Work through example problems related to beam and frame analysis.
Familiarize yourself with concepts like shear force, bending moment, and deflection.

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

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Deepen your understanding of seismic design principles to effectively model and analyze structures 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'.
Read chapters related to seismic analysis and design.
Focus on topics like response spectrum analysis and time history analysis.

Read 'Design of Reinforced Concrete Structures' by McCormac and Brown

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Gain a deeper understanding of reinforced concrete design principles to effectively utilize ETABS and SAFE.

View Design of Reinforced Concrete, 10th Edition on Amazon

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Obtain a copy of 'Design of Reinforced Concrete Structures'.
Read chapters related to slab, beam, column, and foundation design.
Work through example problems to reinforce your understanding.

Four other activities

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Practice Modeling Simple Structures in ETABS

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Improve your proficiency in ETABS by modeling simple structures and comparing the results with hand calculations.

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Model a simple beam or frame structure in ETABS.
Apply loads and run the analysis.
Compare the ETABS results with hand calculations to verify accuracy.
Repeat with different structures and loading conditions.

Generate a Structural Design Report

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Develop your ability to present structural design results professionally by creating a comprehensive report.

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Design a multi-story building using ETABS and SAFE.
Compile all relevant design data, including geometry, material properties, and loading conditions.
Present the analysis results, including shear and moment diagrams, deflection plots, and stress contours.
Include design calculations for beams, columns, slabs, and foundations.
Summarize the design process and results in a clear and concise manner.

Explore Advanced ETABS Features

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Expand your ETABS skillset by exploring advanced features like pushover analysis and time history analysis.

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Find tutorials on advanced ETABS features.
Follow the tutorials to learn how to perform pushover analysis or time history analysis.
Apply these techniques to a sample structure.
Interpret the results and draw conclusions.

Design a 10-Story Building

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Apply your knowledge by designing a complete 10-story building using ETABS and SAFE, from initial modeling to final design and detailing.

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Define the building's geometry, material properties, and loading conditions.
Model the building in ETABS, including beams, columns, slabs, and shear walls.
Perform structural analysis, including static and dynamic analysis.
Design the structural elements according to relevant design codes.
Detail the reinforcement for beams, columns, slabs, and foundations.

Career center

Learners who complete Learn ETABS & SAFE in the Structural Design of 15 Stories RC will develop knowledge and skills that may be useful to these careers:

Structural Engineer

A structural engineer analyzes, designs, and oversees the construction of structural components and systems, ensuring stability and safety. The design of a 15-story residential building, as covered in this course, closely aligns with the responsibilities of a structural engineer. The course helps build a foundation in defining and designing various slab types like waffle, ribbed, and flat slabs, along with different foundation types such as isolated, combined, strip, and mat foundations. Furthermore, the course's focus on earthquake and wind load analysis, column and beam design, and shear walls, combined with advanced analysis in ETABS and SAFE, will be highly useful. Also, the design of piles, a swimming pool, a mosque with a dome and minaret, and modeling dampers ensures a structural engineer is well-prepared for a variety of projects.

See salaries and explore the career path for Structural Engineer

Structural Consultant

Structural consultants provide expert advice and guidance on structural design and analysis to architects, developers, and construction companies. The course’s comprehensive coverage of structural design principles, finite element analysis using ETABS and SAFE, and load considerations, may be useful. The course helps build a foundation in defining and designing various slab types and foundations. The focus on analyzing earthquake and wind loads, designing columns, beams, and shear walls, and advanced analysis techniques in ETABS and SAFE, will be highly useful. The design of piles and dampers prepares the structural consultant for a variety of projects. An advanced degree is essential.

See salaries and explore the career path for Structural Consultant

Civil Engineer

Civil engineers plan, design, and supervise the construction and maintenance of infrastructure projects. This course may be useful for civil engineers who wish to specialize in structural design. The course emphasizes analytical thinking, particularly on how to approach a project and determine element dimensions before modeling. The course helps a civil engineer design structural components for residential buildings, including slabs, foundations, columns, and beams, using software like ETABS and SAFE. Additionally, the course covers earthquake and wind load considerations, which are critical aspects of civil engineering projects. Learning to design piles, a swimming pool, a mosque with a dome and minaret, and dampers could add valuable, specific skills.

See salaries and explore the career path for Civil Engineer

Architectural Engineer

Architectural engineers apply engineering principles to the design, construction, and operation of buildings. This course helps an architectural engineer understand structural design principles using software like ETABS and SAFE. The course's coverage of different slab and foundation types will be useful when coordinating structural elements with architectural designs. The course may also be helpful when incorporating earthquake and wind load considerations into building designs. Moreover, the course's focus on design and modeling of specific structures such as swimming pools and mosques with unique architectural features, would provide practical experience. They will also gain the ability to design piles and dampers.

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BIM Modeler

A Building Information Modeling modeler creates and manages digital representations of physical and functional characteristics of a facility. This course may be useful for a BIM modeler especially the sections on modeling structures in ETABS and SAFE. The course’s focus on accurately modeling structural elements and understanding their design considerations translates directly to BIM projects. The ability to design various slab types, foundations, and structural components, and to integrate earthquake and wind load data into the models might be useful. This provides the BIM modeler with an understanding of how to model specific projects. The course is helpful for accurately representing structures in a digital environment.

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Structural Drafter

Structural drafters prepare detailed drawings and plans for structures based on engineering specifications. This course may be useful for structural drafters, providing a deeper understanding of structural design principles. The course’s coverage of various slab and foundation types, and the design of structural components, is relevant for creating detailed drawings. Knowledge of software such as ETABS and SAFE, as emphasized in the course, will allow for better collaboration with structural engineers. The course's detailing drawings in ETABS may be helpful to the drafter.

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Construction Manager

Construction managers plan, coordinate, and oversee construction projects from start to finish. While their role isn't primarily design-focused, understanding the structural aspects discussed in this course can greatly enhance their effectiveness. The course's emphasis on defining element dimensions and structural analysis will be useful when making informed decisions during construction. Familiarity with different slab and foundation types, as covered in the course, will also contribute to better project oversight and coordination with structural engineers. The detailed report creation taught in the course ensures clear and well-documented reports in ETABS.

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Geotechnical Engineer

Geotechnical engineers investigate subsurface conditions and materials to assess and design foundations and earthworks. This course’s emphasis, on foundation design, may be useful to a geotechnical engineer. The course’s discussions of various foundation types, such as isolated, combined, strip, and mat foundations, and the design of piles, are relevant for geotechnical applications. An understanding of how structural loads impact foundation design, as covered in the course, may be useful for geotechnical assessments. The course is helpful for understanding foundation design principles. An advanced degree is typically required.

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Project Engineer

Project engineers manage and coordinate engineering projects from conception to completion. This course may be useful for project engineers involved in structural or civil engineering projects. The course’s emphasis on structural design analysis, element dimensioning, and software applications like ETABS and SAFE will be useful for understanding project requirements and coordinating with design teams. The course's coverage of earthquake and wind load considerations ensures project engineers are aware of critical design factors. The course is helpful for understanding structural design aspects. An advanced degree is typically required.

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CAD Technician

CAD Technicians use computer-aided design software to create technical drawings and plans. This course touches on exporting from AutoCAD to ETABS, this may be useful to a CAD technician as they can better understand the structural elements they are drawing. The course’s focus on structural design and different types of slabs, foundations, and structural components will be helpful for creating detailed and precise drawings. The course may allow a CAD technician to know how to better collaborate with structural engineers through a shared understanding of design principles. The course is helpful for producing accurate drawings in ETABS.

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Construction Supervisor

Construction supervisors oversee construction activities at the job site, ensuring that work is completed safely, on time, and within budget. This course may be somewhat useful to construction supervisors, particularly the sections that discuss how civil engineers must begin with projects. The course's focus on structural design analysis and dimension determination will be useful when making informed decisions on site. Familiarity with different slab and foundation types, as covered in the course, may contribute to better project oversight and coordination with structural engineers. The course is helpful for gaining insight into structural aspects.

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Municipal Engineer

Municipal engineers plan, design, and oversee the construction and maintenance of municipal infrastructure. This course may be useful for municipal engineers involved in any structural aspects of municipal projects. The course’s coverage of structural design considerations and load analysis may be relevant for designing municipal structures such as retaining walls and small buildings. Understanding different foundation types, as covered in the course, will be useful for ensuring the stability and durability of municipal infrastructure. Learning to design piles may be helpful.

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Bridge Engineer

Bridge engineers design, inspect, and maintain bridges, ensuring their structural integrity and safety. The course's coverage of structural design principles, finite element analysis using ETABS and SAFE, and load considerations, may be useful to a bridge engineer. The course’s focus on static and dynamic analysis is beneficial for the complex structural analysis required for bridge design. Although this this course covers the design of buildings, it is still relevant to bridge design, as similar engineering principles apply. Those who wish to become bridge engineers typically have an advanced degree.

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Quantity Surveyor

Quantity surveyors manage and estimate the costs of construction projects. This course may be useful for a quantity surveyor. While the quantity surveyor is not directly involved in structural design, the course’s emphasis on understanding structural elements, materials, and design considerations may be useful for accurate cost estimation. Familiarity with different slab and foundation types, as covered in the course, will contribute to more informed cost assessments. The knowledge of using software like ETABS and SAFE may provide a broader perspective on project complexities and costs.

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Highways Engineer

Highway engineers are responsible for the design, construction, and maintenance of highways and transportation infrastructure. A highway engineer may find relevant the topics discussed in this course. The course’s coverage of structural design considerations and load analysis, including static and dynamic cases, may be useful for designing highway-related structures such as overpasses and retaining walls. Understanding different foundation types, as covered in the course, might be useful for designing stable and durable highway infrastructure. A course on bridge design may also be helpful.

See salaries and explore the career path for Highways 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 Learn ETABS & SAFE in the Structural Design of 15 Stories RC.

Design of Reinforced Concrete, 10th Edition

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Provides a comprehensive overview of reinforced concrete design principles, essential for understanding the design aspects covered in ETABS and SAFE. It is commonly used as a textbook in civil engineering programs. It offers detailed explanations of design codes and practical examples. Reading this book will significantly enhance your ability to interpret and apply the software's results.

Design of Reinforced Concrete, 10th Edition

Kindle Edition

$$$$

PPI PE Civil Study Guide, 17th Edition eText - 1...

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Provides a thorough understanding of seismic design principles, which are crucial for designing earthquake-resistant structures in ETABS. It covers various aspects of seismic analysis and design, including code requirements and detailing practices. This book is particularly useful for understanding the earthquake load definitions and dynamic analysis options available in ETABS. It valuable resource for engineers involved in seismic design projects.

PPI PE Civil Study Guide, 17th Edition eText - 1...

Paperback

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PPI PE Civil Study Guide, 17th Edition eText - 1...

Kindle Edition

Check price

Learn ETABS & SAFE in the Structural Design of 15 Stories RC

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Activities

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