ANALYSIS AND DESIGN OF RCC BUILDING BY ETABS AND NECESSARY HAND CALCULATION AS PER BNBC 2020 & ACI 318.

COURSE: 

ANALYSIS AND DESIGN OF RCC BUILDING BY ETABS AND NECESSARY HAND CALCULATION AS PER BNBC 2020 & ACI 318.

Course Content……….

COURSE CONTENTS:

★★ Design of 6-Storied Building Frame Model

★★ Design of 10-Storied Building Frame Model with Shear Wall

Class -1: Basics of RCC Design & start of first model in ETABS

• Basic Concepts of Analysis and Design of RCC Buildings
• Understanding different Types of Frame System
• Explanation of the project to be analyzed
• Introduction to BNBC 2020
• Understanding story & Grid data
• How to define different types of materials
• Material Strength Modulus of Elasticity, Shear Modulus, Creep & Shrinkage Effects, Unit Weight of Concrete, Stress-strain theory of Concrete Materials according to BNBC 2020 and ACI Codes
• Material Strength Modulus of Elasticity, Shear Modulus, Creep & Shrinkage Effects, Unit Weight of Concrete, Stress-strain theory of Steel Materials according to BNBC 2020 and ACI Codes

Class-2: Definition and Drawing of Members

• Define Frame Members: Column, Beam
• Define Area members: Slab
• Drawing members

Class-3: Gravity Load Calculation & Assign

• Load Calculation: Dead Loads according to BNBC 2020 Code
• Load Calculation: Live loads according to BNBC 2020 Code

Class-4: Wind Load Calculation & Assign

• Occupancy Category
• Building Enclosure
• Wind Speed
• Gust Factor
• Directionality Factor
• Topographical Factor
• Exposure

Class-5: Seismic Load Calculation & Assign

• Base Shear Calculation
• Basics of Time Period
• Basics of Response Spectrum Curve
• Zone Factors
• Response Modification Factor
• Seismic Weight (Mass Source)

Class-6: Assignment of Diaphragm, Support & Analysis of Frame for Different Loads

• Difference between Rigid and Semi Rigid Diaphragm
• Define and Assign diaphragm
• Assign Support
• Property Modifiers
• Pre analysis Checks
• Analysis of Frames (Software Analysis)

Class-7: Post Analysis Checks

• Building Stability Check
• Modal Mass Participation Check
• Gravity Load Check (Manual & ETABS)
• P-Delta
• Base Shear
• Fundamental Period (From PPT)

Class-8: Post Analysis Checks

• Sway
• Beam Deflection
• Story Drift
• Soft Story
• Mass Irregularity
• Torsional Irregularity
• Eccentricity

Class-9: Design of Slabs

• Property Modifiers
• Code Definitions
• Load Combinations
• Detailing of Slab

Class-10: Design of Columns

• Design of Column
• Detailing of Column

Class-11: Design of Beams

• Design of Beam
• Development Length
• Deflection Criteria
• Long Term Deflection
• Torsion Criteria
• Shear Criteria
• Detailing of Beam
• Beam Column Capacity Ratio Check (Strong Column Weak Beam)
• Joint Shear Check

Class-12: Start of Second Model

• Define Frame Members: Column, Beam
• Define Area members: Slab, Wall
• Drawing members
• Dead Loads according to BNBC 2020 Code
• Live loads according to BNBC 2020 Code
• Wind loads according to BNBC 2020 Code
• Seismic loads according to BNBC 2020 Code
• Assignment of Loads
• Assignment of Diaphragm
• Assign Support
• Property Modifiers
• Pre analysis Checks
• Analysis of Frame for Different Loads

Class-13: Post Analysis Checks

• Shear Wall Cracked or Uncracked
• Building Stability Check
• Modal Mass Participation Check
• Gravity Load Check (Manual & ETABS)
• P-Delta
• Base Shear
• Fundamental Period
• Sway
• Beam Deflection
• Story Drift
• Soft Story
• Mass Irregularity
• Torsional Irregularity
• Eccentricity
• Dual Frame-Wall Check

Class-14: Design and Detailing of Shear Walls

• Design of Column
• Design of beam
• Beam Column Capacity Ratio Check (Strong Column Weak Beam)
• Joint Shear Check

Class-15: Design and Detailing of Shear Walls

• Design of Shear Wall
• Detailing of Shear Wall

Instructor:

Engr. Shafiqur Rahman Shafi

Structural Engineer

Design Integrity

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Instructor: 01830438534

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