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Advanced Analysis and Design of Reinforced Concrete Using ACI Code

Dates Venues Register
28/03/2027 - 01/04/2027 LONDON

Introduction

Advanced Analysis and Design of Reinforced Concrete Using ACI Code

 

Objectives

  • To teach delegates how to solve a wide range of special problems which require modelling and simulation analytical approaches of reinforced concrete beams and slabs
  •  To provide advanced models to simulate reinforced concrete systems using workshops
  • To teach delegates the methods of keeping structures in safe conditions against earthquake forces
  • To teach delegates the serviceability of uncracked sections in designing special structures
  • To teach delegates to control thicknesses of concrete and saving reinforced steel percentage by using prestressed concrete and posttension slabs

 

Who should Attend?

This Advanced Analysis and Design of Reinforced Concrete using ACI Code training course has been designed for professionals whose jobs involve the design of special structures, pre-stressed or posttension in addition to uncracked sections. This training course involves extensive modelling and analysis and therefore delegates must enjoy detailed working analysis and design calculation to solve complex problems.

This training course will also be beneficial for senior level civil and structure engineers who have already who needs to have in-depth skills about the structural engineering activities and how to co-operate in the design phase.

 

Course Outline
Day 1

Advanced Design of Reinforced Concrete Slabs and Beams

  • Strip Method
  • Yield Line Method
  • Shear Friction
  • Horizontal Shear Transfer and Composite Concrete Beams
  • Design of Shear Walls
  • Strut -and- Tie Model
  • Truss Model
  • Deep Beams
  • Bearing & Shear Walls
  • Corbels
Day 2

Design for Earthquake Resistance

  • Effect of Confining and Introducing Famous Models
  • Flexural Hinges and their Lengths
  • Ultimate Deformation and Ductility of Members with Flexure
  • Moment-curvature Relationships
  • Cyclic Behavior of Beam-Column Member
  • Redistribution of Moments in Reinforced Concrete Beams
  • Design of Beam-Column Joints
Day 3

Unified Analysis of Reinforced Concrete Structures

  • Strut -and- Tie Model
  • Equilibrium (plasticity) Truss Model
  • Bernoulli Computability Truss Model
  • Mohr Computability Truss Model
  • Softened Truss Model
  • Structural Modeling of RC Systems
  • Deformation of Uncracked Sections (creep & shrinkage and temperature)
Day 4

Design of Special Structures

  • Arches
  • Special Types of Frames and Trusses
  • Folded Plate Roofs
  • Arched Slab Systems
  • Silos
  • Cooling Towers
  • Underground Tanks and Elevated Tanks
Day 5

Design of Pre-stressed Concrete

  • Pre-tensioning and Post-tensioning
  • Materials Used for Prestressed Concrete
  • Stress Calculations
  • Shapes of Prestressed Sections
  • Prestress Losses
  • Ultimate Strength of Prestressed Sections
  • Deflections
  • Design of Shear Reinforcement

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