Civil Structural Analysis

Design Training for Reinforced Concrete (RCC)

In a consulting perspective, you will learn the entire structural design cycle of a building form Scheme development to Essential basics, loading, analysis including seismic analysis, Design & Detailing of High rise RCC Buildings, A complete course with projects.

Course content

Extended3D Analysis of building System (ETABS)

The ETABS program is built specifically for the building systems. It is able to hold complex and large construction models as well as its configurations. The software includes robust tools with respect to modelling analysis and designing. This course is ideal for both structural engineers and also for those who wish to migrate to structural engineering.

Module 1

1. Introduction to ETABS software for RCC Design and Analysis

2. Introduction to Modelling of Highrise building / Low rise building / Villas using ETABS software

3. Manual load calculation and understanding of structural behaviour

4. Structural Schemes – Shear wall, Column & beam positions, orientations.

Module 2

1. Structural Analysis using ETABS software

Module 3

1. Reinforced Building Design – Concrete Design by using ETABS Software

Detailing and Documentation

Guide to one full live project from modelling till final design and how to prepare report for submission

1. Design of various structures in accordance with the architectural principles

2. Creating  model by simplest method

3. Etabs Modelling by using  AutoCAD

4. Modelling of all the element like beam, column, slab ,walls, opening, plinth etc

5. Define materials and selection of material for project.

6. Assigning the Modulus of Elasticity (BS/ACI)

7. How to define/select different size/section of structural element.

8. Calculate the loads dead load, live load, MEP load etc (BS/ACI)

9. Allocate the load cases to understand gravity loads

10. Inspecting and checking the force or reaction

11. Allocate the diaphragm to understand the wind force (BS/ACI)

12. Understand the structural load mechanism

13. Allocate seismic force in various zones to understand the effect the effect of earthquake ground motion

1. Assigning combination of load according to the code recommendation (BS/ACI & UBC 97)

2. Construction sequence analysis

3. Response spectrum of the structure analysis

4. P-delta analysis

5. Analyze the stress and failure

6. Wind pressure calculation – Calculate the displacement due to wind

7. Time period calculation

8. Understand the sway of building and limit as per code limit

9. Understand step by step process to design any building/structure.

10. Optimisation of the design

1. Column design as per BS and ACI code

2. Wall design (Core Wall and Shear Wall) as per the BS and ACI code

3. Beam Design as per BS and ACI codes

4. Extracting the stresses due to temperature

5. Understanding the placement of reinforcement.

6. Design of Retaining walls

7. Design of water tanks.

8. Reinforcement details from the ETABS

Safe Analysis by Finite Elements (SAFE) Model

It is the study about FEM analysis for Slabs and foundation. The software integrates all aspects of the structural engineering design process into one simple and in-built environment. You will learn how to work with SAFE and its use in construction of horizontal elements such as foundations, beams and slabs

1. In accordance with architecture, shape the slab in various ways

2. Import DXF files from the Auto CAD software for various structures

3. Assigning the load cases

4. Allocate the load cases to understand gravity loads (BS, ACI)

5. Modelling of Foundation/Slab

1. Assigning the load combination as per BS/ACI

2. Analysis of deep foundation/Piles

3. Analysis of raft foundation

4. Analysis of different types of footing.

1. Design of the suspended slab and reinforcement

2. Inspect the deflection of slabs short- or long-term deflection

3. Understand the limit with respect to different code limit

4. Model the reinforced strips

5. Designing the beams and extracting the reinforcement

6. Understand the placement of reinforcement in various foundations

7. Understand the placement of reinforcement in slabs and beams

8. Check the soil pressure

9. Check the soil deformation

10. Check the punching

11. Calculate the punching reinforcement.

12. Checking the deflection of slabs

13. Calculating the modulus of ruptures.

Design Training For Reinforced Concrete In Qatar

Join us to become a sought-after expert in Qatar’s thriving construction and engineering industry.

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FAQ

Design Training For Reinforced Concrete (RCC) at Dynatech Qatar covers the RCC (Reinforced Cement Concrete) method, which utilizes steel bars embedded in concrete to bolster its tensile strength alongside compressive strength. This approach ensures structures can withstand both tension and compression forces effectively, making it a preferred choice in construction for its durability and versatility. Participants learn essential techniques for designing and constructing robust RCC structures, ensuring they meet safety standards and architectural requirements. Understanding RCC design is crucial for engineers and architects to create resilient buildings capable of enduring various environmental and structural challenges.Contact Us

Design Training For Reinforced Concrete (RCC) at Dynatech Qatar covers the RCC (Roller-Compacted Concrete) technique, which is a robust, low-moisture concrete blend used primarily in large-scale projects such as dams and highways. Unlike traditional concrete, RCC is mixed with minimal water and compacted using heavy rollers to achieve high strength quickly. This method is prized for its cos efficiency and rapid construction advantages, making it ideal for infrastructure projects requiring durable and quickly deployable concrete solutions. Engineers and construction professionals benefit from mastering RC techniques to efficiently manage and execute complex projects with stringent structural requirements.
RCC training, or Reinforced Cement Concrete training at Dynatech Qatar, focuses on mastering the principles and techniques for constructing robust structures using reinforced concrete. This involves embedding steel reinforcement within concrete to enhance its strength and durability, crucial for withstanding various structural demands. Participants learn comprehensive aspects of RCC, including design, construction methods, and quality control measures for concrete structures. This training equips engineers and construction professionals with essential skills to effectively design, supervise, and ensure the longevity and safety of concrete based projects in diverse construction environments.
Design Training For Reinforced Concrete (RCC) at Dynatech Qatar is ideal for civil engineers, architects, construction professionals, and anyone interested in mastering structural design and materials. This course covers fundamental principles of concrete technology, construction methods, and design practices, accommodating both beginners and experienced professionals construction and engineering. Participants gain essential skills in RCC design, ensuring they can effectively contribute to and oversee concrete based projects, from conceptualization to execution. Whether you’re starting your career o aiming to enhance your expertise, this course provides valuable knowledge to meet the demands of modern construction practices and achieve successful project outcomes
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