Seismic Design of R/C buildings from Udemy

What's inside

Syllabus

Introduction

In the first lecture, we will go through the EC8.

Denote the important parts of EC8, which are related to the full system (building)

In this lecture, we will learn, how to calculated the behavior factor and the system type.

In this lecture will learn, how calculated the Shear-Torson center of the building.

Modeling of the 6 Storeys R/C building Step by Step via modal analysis.

In this tutorial, we will indicate necessary information on the system and of the element such as Axial, Shear and moments forces.

In this tutorial will learn how to design the longitudinal

In this tutorial, we will learn how to calculate the shear reinforcement of columns.

Application of column crushing equation.

In this tutorial, we will learn how to design a seismic beam.

In this tutorial, we learn how to design Shear walls.

How to check the Punching shear on Slabs

How to design Slab according to EC2

How to Design Foundation. ++Punching shear Check

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Read about what's good

what should give you pause

and possible dealbreakers

Offers hands-on experience with SAP2000, a widely used software for structural analysis and design, enhancing practical skills

Focuses on Eurocode 8 (EC8), which is essential for structural engineers working on projects in Europe and other regions adopting European standards

Covers seismic detailing design of various structural elements, providing a comprehensive understanding of earthquake-resistant construction practices

Includes dynamic linear analysis, a fundamental method for assessing the seismic response of structures, which is crucial for ensuring safety

Requires familiarity with structural analysis software and seismic design principles, which may necessitate prior coursework or practical experience

Teaches design according to EC2, which may not be applicable to all regions, potentially limiting its usefulness for some learners

Reviews summary

Seismic design with ec8 and sap2000

According to learners, this course offers a solid introduction to seismic design of reinforced concrete buildings using the Eurocode 8 (EC8) standard and practical application through Sap2000 software. Students appreciate the step-by-step modeling and detailing design procedures for elements like beams, columns, and shear walls, finding the practical examples valuable. Some reviewers note that the course is geared towards those with some prior structural knowledge and that the instructor's delivery or clarity could be improved at times, suggesting it might require supplementary study or a patient approach. Overall, it is considered a useful resource for civil and structural engineers.

Best for engineers, not total beginners.

"This course is definitely for engineers who already have a background in structural analysis."

"Not suitable for someone with absolutely no prior knowledge of structural mechanics or design."

"Assumes familiarity with basic structural engineering concepts and possibly Sap2000."

"Beneficial if you have studied structural engineering before."

"A solid foundation in static analysis and concrete design is highly recommended."

Clear procedures for structural elements.

"The sections on detailing design for columns and beams were particularly useful."

"I found the step-by-step approach to calculating reinforcement for seismic elements easy to follow."

"Explains the detailing requirements from EC8 very well."

"Practical examples for shear walls and foundations detailing are included."

"Provides necessary steps for seismic detailing based on EC8."

Focus on real-world engineering tasks.

"The course provides practical skills I can use immediately in my work."

"Liked that it focused on how engineers actually perform these designs."

"It bridges the gap between theory and practical application quite well."

"Hands-on approach with Sap2000 modeling is a strong point."

"Directly applicable to real-world seismic design projects."

Practical application of code and software.

"The course provided a great overview of using EC8 for seismic design."

"Learning how to model and analyze in Sap2000 based on seismic codes was very helpful."

"I appreciated the clear explanation of the steps involved in applying Eurocode 8 principles."

"Focuses heavily on practical application with Sap2000 and EC8 guidelines."

"Covers the essential link between theoretical code requirements and software implementation."

Delivery can be challenging to follow.

"Sometimes the instructor's accent makes it a bit difficult to understand complex terms."

"The audio quality or delivery pace occasionally made me re-listen to sections."

"Could improve clarity in explanations, especially for theoretical concepts."

"While knowledgeable, the presentation style could be more engaging."

"Requires concentration due to the instructor's speaking style."

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 Seismic Design of R/C buildings with these activities:

Review Structural Analysis Principles

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Strengthen your understanding of fundamental structural analysis concepts. This will provide a solid base for understanding seismic design principles.

Browse courses on Structural Analysis

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Review key concepts like stress, strain, and bending moments.
Practice solving basic structural analysis problems.

Review Reinforced Concrete Design Fundamentals

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Refresh your knowledge of reinforced concrete design principles. This will help you understand the detailing requirements for seismic design.

Browse courses on Reinforced Concrete Design

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Review the behavior of reinforced concrete under load.
Study the design of beams, columns, and slabs.

Read 'Seismic Design of Reinforced Concrete Buildings' by Jack Moehle

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Gain a deeper understanding of seismic design principles. This book provides a comprehensive overview of the subject.

View Seismic Design of Reinforced Concrete Buildings on Amazon

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Read the chapters related to the topics covered in the course.
Work through the example problems.

Four other activities

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Practice SAP2000 Modeling

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Improve your proficiency in SAP2000. This will allow you to effectively model and analyze structures for seismic loading.

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Model simple R/C structures in SAP2000.
Perform modal analysis and response spectrum analysis.
Compare your results with hand calculations.

Study 'Eurocode 8: Seismic Design of Buildings' by Ahmed Elghazouli

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Deepen your understanding of EC8. This book provides a detailed explanation of the code provisions.

View Putting Knowledge to Work on Amazon

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Focus on the sections relevant to R/C buildings.
Compare the EC8 provisions with other seismic design codes.

Create a Seismic Design Checklist

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Synthesize your knowledge by creating a checklist. This will help you remember key steps and considerations in seismic design.

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Review the course materials and relevant codes.
List all the steps involved in seismic design.
Organize the steps into a logical order.

Seismic Design of a Small R/C Building

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Apply your knowledge by designing a small R/C building. This will solidify your understanding of the design process.

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Select a building geometry and location.
Determine the seismic design parameters.
Perform structural analysis and design.
Detail the reinforcement.

Career center

Learners who complete Seismic Design of R/C buildings 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, ensuring their safety and stability. This course helps structural engineers design reinforced concrete (R/C) buildings to withstand seismic activity. The course emphasizes modeling using SAP2000, application of Eurocode 8 (EC8), estimation of the behavior factor, and seismic detailing design of structural elements like beams, columns, and shear walls. Structural engineers benefit from the course's coverage of dynamic linear analysis and considerations for column crushing and slab punching shear. It is particularly useful due to its focus on practical applications and industry-standard software.

See salaries and explore the career path for Structural Engineer

Civil Engineer

A civil engineer plans, designs, and supervises the construction and maintenance of infrastructure projects. Many civil engineers work in structural design. This course helps civil engineers gain specialized knowledge in the seismic design of R/C buildings. The modeling techniques taught, along with methods for using EC8, provide a robust foundation for designing earthquake-resistant structures. The course's focus on calculating the shear-torsion center, performing dynamic linear analysis, and handling the seismic detailing of various structural components like beams, columns, shear walls, slabs, and foundations are also extremely useful. As a result, the course is very useful to civil engineers.

See salaries and explore the career path for Civil Engineer

Seismic Analyst

A seismic analyst uses computer modeling to simulate how buildings behave when exposed to an earthquake. This course allows the seismic analyst to understand the intricacies of seismic modeling, as well as how to use SAP2000 for accurate models. The analyst also learns how to estimate behavior factors, calculate shear torsion and perform dynamic linear analysis. A seismic analyst role usually requires an advanced degree.

See salaries and explore the career path for Seismic Analyst

Building Inspector

A building inspector examines buildings and other structures to ensure compliance with building codes, zoning regulations, and contract specifications. This course helps building inspectors working with R/C structures gain a deeper understanding of seismic design principles and detailing requirements. Topics covered include design considerations for beams, columns, shear walls, slabs, and foundations, as well as checks for column crushing and punching shear. This knowledge is helpful for inspectors to assess the structural integrity and safety of buildings. As a result, the course is very useful to building inspectors.

See salaries and explore the career path for Building Inspector

Research Scientist

A research scientist conducts experiments and analyzes data to increase scientific knowledge. This course may be helpful for a research scientist who specializes in structural engineering, earthquake engineering, or a related field, particularly if they seek to expand their understanding of R/C buildings. Research scientists might investigate new design methodologies, material properties, or analytical techniques to improve seismic resilience. Topics covered such as dynamic linear analysis, behavior factor estimation, and seismic detailing are useful. Research usually requires an advanced degree.

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Consultant

A consultant is an expert who provides professional advice to organizations for a fee. This course enables independent consultants to advise clients on seismic design compliance of R/C buildings. The course is very useful in teaching relevant information, as a consultant must have a grasp of the modeling, standards, and types of analysis that will be used in their designs. Consultants usually have an advanced degree.

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Geotechnical Engineer

Geotechnical engineers investigate subsurface conditions and materials to assess risks associated with soil and rock for civil engineering projects. Although the course focuses on structural design, considering foundation design is critical in geotechnical engineering, especially in seismically active areas. The course covers foundation design and punching shear checks of slabs, which may be useful for geotechnical engineers needing a more holistic understanding of structural behavior under seismic loads. The course may be useful to Geotechnical Engineers.

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Project Engineer

Project engineers assist in the planning, coordination, and execution of engineering projects. This course helps project engineers, especially those involved in civil or structural projects, gain a basic understanding of seismic design considerations for R/C buildings. Exposure to modeling techniques, EC8 standards, and detailing requirements equip the project engineer to make informed decisions and communicate effectively with design teams. The course may be useful to project engineers.

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Lecturer

A lecturer delivers presentations and teaches to students on specialized topics, usually at a college or university. This course prepares lecturers to teach content related to seismic design of R/C buildings. The course gives the information needed to explain principles such as modeling via SAP2000, application of Eurocode 8, and dynamic linear analysis of buildings, therefore better informing students on the principles of seismic design. Lecturers typically hold an advanced relevant degree.

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Professor

A professor is an expert who delivers lectures at a university. This course helps professors teach students about modeling via SAP2000 and using EC8. Especially helpful is the course's teaching of how to estimate behavior factors, structural types, and analysis. The material presented in this course equips professors with the skills and knowledge needed to stay abreast of leading-edge practices in seismic engineering. Professors require an advanced degree.

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Construction Manager

A construction manager oversees construction projects from beginning to end, ensuring they are completed on time and within budget. While the course focuses on design principles, a construction manager working on a project involving R/C buildings in seismic zones may find the material useful for understanding the design considerations and potential challenges. Knowledge of seismic detailing of structural elements and potential failure modes like column crushing can aid in quality control and risk management. The course may be useful to construction managers.

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CAD Technician

A CAD technician creates technical drawings and plans using computer-aided design software based on engineers' and architects' specifications. While this course centers on design principles, CAD technicians involved in projects with R/C buildings may find some benefits from it. A basic understanding of seismic detailing of structural elements assists in accurately translating design specifications into detailed drawings for construction. Therefore, the course may be useful to CAD technicians.

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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 must consider natural disaster resilience. Although this course focuses on building design, it may be helpful for planners to understand how buildings are engineered to withstand seismic activity. The course may be useful to urban planners.

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Sustainability Consultant

A sustainability consultant advises organizations on practices to reduce their environmental impact and improve sustainability. While this may seem unrelated, the design of resilient structures that can withstand seismic events can be considered a sustainability measure. The course's coverage of R/C building design, with adherence to EC8 standards, may offer insights into sustainable building practices that prioritize safety and durability. The course may be useful to sustainability consultants.

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Materials Scientist

A materials scientist researches and develops new materials or analyzes existing ones. This course may be useful for a materials scientist, as the course covers considerations for structural materials under earthquake scenarios. Though the course focuses on design, it may influence what materials a scientist may wish to design. Materials scientists usually have an advanced degree.

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Seismic Design of R/C buildings

What's inside

Syllabus

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Reviews summary

Seismic design with ec8 and sap2000

Activities

Career center

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