Construction Drawing Reading & Structural Engineering -Etabs from Udemy

IS learning Structural Engineering Concepts and design on your Mind, but not able to Find the Right Course that can help you leverage your Structural Engineering Skills??

Don't Worry, you are Just a Click away from Gaining 44 hours of in-depth Concepts from 7+ years of experienced Faculty.

Before we start this Journey together have a look at the Entire Syllabus that we will be covering in the Next 45 hours, Buckle your Seat Belt and give your Brain a Challenge that it has been looking for a long time.

Module 1- G+3 Residential Building Structural Drawing Reading & Detailing up to Plinth Beam

1. Decoding Ground Floor Architectural plan of G+3 Storey Building

2. Decoding Typical Floor Plans of G+3 Storey Building

3. General Notes of Building

4. Reading Footing Layout of Residential Building

5. Decoding Footing Cross Section

6. Decoding SP-34 Clauses and Footing Detailing

7. Decoding Column Layout and Standard Column Sizes in Building

8. Decoding Column Reinforcement Drawing of G+3 Building

9. IS 456-2000 Reference & Important points

10. Mastering Plinth Beam Layout Drawing like Pro

11. Mastering Plinth Beam Reinforcement

Module 2 - G+3 Residential Building Ground Floor to Terrace Floor Structural Drawing

1. Decoding Extra rebar in Beam and its Detailing Logic

2. Decoding Types of Slabs l How to Identify the Slabs

3. Decoding 1-way Slab Fundamentals -Part-1

4. Decoding 1-way Slab Fundamentals -Part-2

5. Decoding 2-way Slab Fundamentals

6. Complete Floor Structural Drawings of G+3 Building

Module 3- Structural Design of G+3 Storey Building-Marathon Series

1. Placing of Column in Real Live Projects - Most Demanding Lecture-Part -1

2. Placing of Column in Real Live Projects - Most Demanding Lecture-Part-2

3. Decoding Column orientation & Its Logic Behind orientation

4. Preparing Column Center Line Layout in AutoCAD

5. Assignment for Preparing Column Layout - Do it yourself- Yippee

6. Beam Layout Preparation on AutoCAD

7. Decoding Etabs Model for G+3 Building

8. How to decide Beam Size and Check in Etabs

9. Decoding Column & Slab Sizes in Real Project

10. Applying Load on Slab & Beam in Etabs Software

11. Analysis and Design of Building in Etabs

12. Footing Design in Excel & Manually

13. Footing Layout preparation on AutoCAD

14. Column Design in Etabs

15. Column Lateral Ties Designing Manually

16. Column Lateral Ties According to SP-34

17. Beam Detailing in Etabs & Manually

MODULE 4- 35,000 sq. Mtr Industrial Building with Steel Structures

Contents-

Site Layout Plan
Factory Layout of Steel Structure & Ground & 1st Floor Office Building
Footing & pedestal Details
Plinth Beam Details
Beam & Slab Details
Underground Water Tank , Scrap Shed & Utility Area

Miscellaneous Topics

a) Sewage & plumbing Drawings

b) Flag pole Foundation Drawing

c) Storm water & Box Culvert Drawings

d) PEB Structure & Anchor Bolt Drawings

Master on Etabs Structural Engineering & Designing of Building

ETABS- Extended Three-Dimensional Analysis Of Building Systems

This Course helps in understanding the fundamentals of Reinforced Cement Concrete & Structural Engineering.

The Course is designed with each Etabs Commands Explained in A practical Approach.

All the Calculations are Manually verified with the ETABS results.

1. Manual calculations of beams, column , slabs & Footings.

2. The model is prepared for Dead Load & Live Load & checked for all results

3. The Basic of Structural Engineering is covered in Great Detail.

4. Learn all Basic commands required to Model any Structure

5. All the Elements like Footing, Column , Beam & Slab Manual Detailing is Explained

6. The course is also designed so that learners will be able to prepare center Line layout, Column Layout & Foundation Layout.

7. The concept of primary Beams & Secondary Beams are also covered .

8. Importance of torsion, how to release Moments for Beams is covered in Details .

9. The code book of IS 875 -Part 1 & Part 2 is covered for Applying Loads.

What's inside

Syllabus

G+3 Residential Building Structural Drawing Reading & Detailing upto Plinth Beam

Decoding Ground Floor Architectural plan of G+3 Storey Building

Traffic lights

Read about what's good

what should give you pause

and possible dealbreakers

Covers manual verification of calculations alongside ETABS results, reinforcing understanding of structural principles and software outputs

Includes a module on industrial building design with steel structures, expanding beyond residential buildings

Features coverage of SP-34 clauses and IS 456-2000, which are Indian Standard code books relevant to structural engineering practices

Requires AutoCAD for preparing column center line and beam layouts, so learners should have access to this software

Focuses on ETABS, which is a specific software, so learners should ensure it aligns with their professional needs

Reviews summary

Structural drawing reading & etabs practical guide

According to learners, this course offers a practical and in-depth guide to both structural drawing reading and using ETABS for design, particularly for residential buildings. Students appreciate the real-world examples and the combination of manual calculations and software application, which helps solidify understanding. While the instructor's explanations are generally clear and detailed, some learners noted minor issues with audio quality or pacing in certain sections. Overall, it's considered a valuable resource for aspiring and practicing civil/structural engineers.

Pace might be fast for absolute beginners.

"Moves quite quickly, might require pausing and re-watching for some topics."

"Good if you have some basic background, might be fast otherwise."

"The pace was mostly fine, but certain detailed steps went by fast."

Thorough coverage of reading drawings.

"The section on reading structural drawings was particularly informative."

"Decoding the architectural and structural plans was made simple."

"Helped me understand the details in typical construction drawings."

Explanations are detailed and easy to follow.

"The instructor explains complex topics in a very clear manner."

"Very detailed explanations covering the fundamental concepts."

"I appreciated the step-by-step guidance provided by the instructor."

Combines software use with manual checks.

"Excellent approach by comparing ETABS results with manual calculations."

"Understanding both ETABS and manual design is a major strength."

"The integration of ETABS modeling and manual verification is very beneficial."

Focuses heavily on real-world scenarios.

"The course is very practical and focused on real construction projects."

"I found the real live project examples particularly helpful."

"Covers how to apply concepts directly to practical work situations."

Some technical quality issues noted.

"Sometimes the audio quality was a bit inconsistent."

"A few videos had lower resolution which made reading small text difficult."

"While the content is great, the sound could be improved in some lectures."

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 Construction Drawing Reading & Structural Engineering -Etabs with these activities:

Review IS 456-2000 Code Provisions

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Familiarize yourself with the Indian Standard code of practice for plain and reinforced concrete to better understand the design principles used in the course.

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Obtain a copy of IS 456-2000.
Review the key clauses related to reinforced concrete design.
Focus on sections about materials, workmanship, and general design requirements.

Review 'Reinforced Concrete Design' by Pillai and Menon

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Study a comprehensive textbook on reinforced concrete design to gain a deeper understanding of the principles applied in ETABS and manual calculations.

View Putting Knowledge to Work on Amazon

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Acquire a copy of 'Reinforced Concrete Design' by Pillai and Menon.
Read chapters related to beam, column, and slab design.
Work through example problems to reinforce understanding.

Practice Manual Calculations of Beam and Slab Design

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Reinforce your understanding of structural design by performing manual calculations for beam and slab design, comparing your results with ETABS outputs.

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Select a few beam and slab examples from structural drawings.
Calculate the required reinforcement manually using IS 456-2000.
Compare your manual calculations with the ETABS design results.
Analyze any discrepancies and understand the reasons behind them.

Four other activities

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Develop a Column Layout Plan using AutoCAD

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Enhance your proficiency in AutoCAD by creating a column layout plan for a G+3 building, applying the principles learned in the course.

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Obtain architectural plans for a G+3 building.
Determine the optimal column locations based on structural considerations.
Create a column layout plan in AutoCAD, including dimensions and details.
Present your column layout plan for review.

Structural Design Project: G+3 Residential Building

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Undertake a comprehensive structural design project for a G+3 residential building, integrating all the concepts and skills learned throughout the course.

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Obtain architectural drawings for a G+3 residential building.
Develop an ETABS model of the building.
Perform structural analysis and design using ETABS.
Prepare detailed structural drawings, including reinforcement details.
Write a report summarizing the design process and results.

Study 'SP-34 Handbook on Concrete Reinforcement and Detailing'

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Deepen your understanding of reinforcement detailing by studying the SP-34 handbook, which provides practical guidance on concrete reinforcement.

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Acquire a copy of the SP-34 handbook.
Review the chapters related to reinforcement detailing for beams, columns, and slabs.
Pay attention to the detailing requirements for different structural elements.

Assist Other Students with ETABS Modeling

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Solidify your understanding of ETABS by helping other students with their modeling and analysis tasks, reinforcing your own knowledge in the process.

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Offer assistance to classmates struggling with ETABS modeling.
Explain the steps involved in creating a structural model in ETABS.
Help troubleshoot common errors and issues.

Career center

Learners who complete Construction Drawing Reading & Structural Engineering -Etabs will develop knowledge and skills that may be useful to these careers:

Structural Engineer

As a structural engineer, you ensure the safety and stability of buildings and other structures. This course helps you develop a strong understanding of structural engineering principles, particularly related to Reinforced Cement Concrete. The course covers manual calculations of structural elements like beams, columns, slabs, and footings, and this reinforces the fundamentals needed for sound structural design. The course’s focus on ETABS software also offers a practical approach to designing and analysing buildings, which is essential for a structural engineer. Learning to decode structural drawings is an additional asset that is addressed within the course.

See salaries and explore the career path for Structural Engineer

Structural Designer

Structural designers develop structural plans and details for buildings and infrastructure. This course provides essential skills and knowledge directly applicable to this role. The comprehensive coverage of structural drawing reading, reinforcement detailing, manual calculations, and ETABS software equips structural designers with the tools to create efficient and safe designs. This course is invaluable for structural designers working on residential, commercial, or industrial projects.

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Draftsperson

Draftspersons prepare technical drawings and plans based on designs provided by engineers and architects. This course is directly applicable to this role, as it teaches the fundamentals of structural drawing reading and detailing. The modules on decoding architectural and structural plans, understanding reinforcement details, and mastering layout drawings significantly enhance a draftsperson's skills. Proficiency in ETABS software, as covered in the course, adds another layer of expertise, allowing draftspersons to contribute more effectively to structural design projects.

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Civil Engineer

Civil engineers design, construct, and maintain the built environment, including buildings, roads, and bridges. This course provides a solid grounding in structural engineering concepts, essential for civil engineering projects. The course provides insights into reinforced cement concrete and structural engineering. Civil engineers can benefit from learning how to use ETABS software for structural design and analysis. The course offers comprehensive modules on structural drawing reading and detailing, enhancing a civil engineer's ability to interpret and implement technical drawings on construction sites.

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CAD Technician

CAD Technicians use computer-aided design software to create technical drawings. This course enhances a CAD technician’s ability to produce precise and accurate structural drawings. The modules on decoding architectural plans, creating column layouts, and detailing reinforcement significantly improve their proficiency. Also, a broader understanding of structural engineering concepts allows CAD technicians to contribute more effectively to design teams and ensure that drawings meet engineering requirements.

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Building Inspector

Building inspectors examine buildings and structures to ensure they comply with building codes and regulations. This course's detailed coverage of structural drawing and detailing is highly beneficial for building inspectors. Understanding footing layouts, column reinforcement, and beam detailing, as taught in the course, enables inspectors to thoroughly assess the structural integrity of buildings. The course’s focus on reinforced cement concrete and relevant IS codes enhances their ability to evaluate construction quality and compliance with safety standards.

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Project Engineer

Project engineers assist in the planning, coordination, and execution of engineering projects. This course provides valuable knowledge of structural engineering principles and design that will be useful to a project engineer. The course allows for the development of skills in reading and interpreting structural drawings, understanding reinforcement details, and using ETABS software. All are critical for ensuring the successful completion of construction projects. The course's comprehensive approach, covering residential and industrial buildings, makes it a relevant asset for project engineers.

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Construction Manager

A construction manager oversees construction projects from start to finish, ensuring they are completed on time and within budget. This course helps in understanding structural drawings and design, which is crucial for effective project management. It provides insights into the structural aspects of building, including footing, column, beam, and slab detailing which provides a more informed project oversight. Additionally, the course's focus on reinforced cement concrete enhances the construction manager’s ability to make decisions related to material usage and structural integrity.

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Architect

Architects design buildings and spaces, focusing on aesthetics and functionality, while also needing to understand structural considerations. This course provides architects with a greater understanding of structural engineering principles, enabling them to design more innovative and structurally sound buildings. The course helps architects understand the implications of their design choices on structural stability and construction feasibility. Understanding Reinforced Cement Concrete & Structural Engineering concepts will also inform their design process. This course may be useful to an architect.

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Estimator

Estimators prepare cost estimates for construction projects by analyzing project requirements and specifications. This course may be useful to estimators since the course helps one better understand the structural drawings, reinforcement details, and material quantities involved in construction. Also, this is particularly useful for projects involving reinforced cement concrete, where accurate material estimation is essential for cost control. This course may offer a solid grasp of the structural components of a building, so estimators can provide accurate and competitive bids.

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Quantity Surveyor

Quantity surveyors manage the costs of construction projects, including materials and labor. While a quantity surveyor does not need to know structural engineering, this course may be useful for a quantity surveyor by providing a better understanding of the structural components of a building, enabling more accurate cost estimation and material quantification. The course allows for insights into structural drawings, reinforcement details, and concrete work, all factors that influence project costs. Quantity surveyors can make informed decisions and provide clients with realistic budget projections.

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Lecturer

Lecturers in civil or structural engineering teach and mentor students in higher education institutions. This course is useful for lecturers looking to enhance their practical knowledge of Reinforced Cement Concrete and ETABS software. The course allows lecturers to give a broader understanding of structural engineering principles. By demonstrating practical applications of structural design and analysis, lecturers may enrich their teaching and prepare students for real-world engineering challenges. An advanced degree (master's or phd) is typically required.

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Steel Detailer

Steel detailers create detailed drawings for steel structures, crucial for fabrication and erection. This course provides a foundation in structural engineering principles, and this may be useful, since it offers coverage of industrial buildings with steel structures. The course helps steel detailers understand the structural context of their drawings and ensure accuracy. Familiarity with ETABS software, as covered in the course, can also improve the integration of steel detailing with overall structural design.

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Geotechnical Engineer

Geotechnical engineers investigate subsurface conditions and materials to assess the stability of soil and rock for construction projects. This course may be useful to geotechnical engineers since the course touches on the design of footings. While the focus is on the structural aspects, understanding footing design and soil-structure interaction provides a more holistic view of project requirements. The course may allow for an enhanced collaboration with structural engineers and better integration of geotechnical findings into building designs.

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Bridge Engineer

Bridge engineers design, inspect, and maintain bridges, ensuring their safety and durability. While this course focuses on building structures, the fundamental principles of structural engineering and ETABS software are also relevant to bridge design. Bridge engineers can adapt their knowledge and skills to analyze and design bridge components, especially those involving reinforced concrete. This course may be useful in broadening their understanding of structural analysis techniques. Typically, a master's degree is required.

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Construction Drawing Reading & Structural Engineering -Etabs

What's inside

Syllabus

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Reviews summary

Structural drawing reading & etabs practical guide

Activities

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