CE6601/CE2401 Design of Reinforced Concrete and Brick Masonry Structures Hand Written Lecture Notes

  • 6Jan
  • 2016
  • 0
    13.5k
       
    Design of Reinforced Concrete and Brick Masonry Structures Premium Lecture Notes Prepared by Alarmelumangai & Elliss Yogesh. Specially for Civil Engineering. Syllabus Covered based on Anna University B.E Civil Engineering.


    CONTENT:
    UNIT-1 (Pages: 43)
    RETAINING WALLS
    UNIT-2 (Pages: 39)
    WATER TANKS
    UNIT-3 (Pages: 43)
    SELECTED TOPICS
    UNIT-4 (Pages: 21)
    YIELD LINE THEORY
    UNIT-5 (Pages: 35)
    BRICK MASONARY

    Attachment: click here

    UNIT-1
    RETAINING WALLS
    Check for shear
    Curtail of reinforcement
    Temperature and shrinkage reinforcement
    Front force
    Stability check
    Again check for stability
    Factor of safety against overwriting
    Check for bearing pressure
    Pressure distribution
    Design for toe slab
    Design of heal slab
    Design of wall
    Temperature reinforcement
    Reinforcement details
    Design of stem
    Percentage of reinforcement
    Distribution bars
    Temperature and shrinkage reinforcement
    Distributors
    Curtailment of bars
    Check for stability
    Stability calculation
    Maximum and minimum
    Pressure at the base
    Design of heal slab
    Design of shear key
    Dimensional of retaining wall
    Design of stem
    Stability calculation
    Design of teo slab
    Design of counterforts
    Curtailment of bars
    Connection between counterfort
    Connection between counterfort and heal slab

    UNIT-2
    WATER TANKS
    Underground
    Elevated tanks
    Factors
    1. Strength
    2. Water tightness
    3. Overall stability
    Design requirement of materials
    Stresses in steel
    Stresses in concrete
    Stresses due to drying shrinkage or temperature change
    Concrete
    Joints
    Construction joints
    Expansion joints
    Sliding joints
    Cylindrical tanks
    Design of joints
    Spacing of joints
    Floor of tanks resisting on supports
    Minimum reinforcements
    Minimum cover
    Roof
    1. Provision of movements joints
    2. Loading
    3. Water tightness
    4. Protection against corrosion
    Tank resting on ground
    Vertical reinforcement
    Check for shear stresses
    Design of roof slab
    Base slab

    UNIT-3
    SELECTED TOPICS
    Types of stairs
    1. Straight stairs
    2. Quarter turn stairs
    3. Dog – legged stairs
    4. Three quarter turn stair
    5. Geometrical stairs
    6. Bifureated stairs
    7. Multiple flight stairs
    Reinforcement details
    Culvert
    Types
    1. Pipe culvert
    a. Single
    b. Double
    2. Pipe arch
    a. Single
    b. Double
    3. Box culvert
    4. Bridge culvert
    5. Arch culvert
    Design properties of box culvert
    Design of reinforcement
    Raft foundation
    Design principles of raft foundation
    Wall
    Plain concrete wall
    Short concrete wall
    Slender
    Types of concrete wall
    Staircase
    Components
    Riser
    Types
    Load
    Baluster
    Flight
    UNIT-4
    YIELD LINE THEORY
    Yield line
    Yield line theory
    Basic assumption of yield line theory
    Characteristics features of yield line
    Yield line development
    Yield line properties
    Rectangular slab
    Non – rectangular slabs
    Methods of analysis of slabs
    1. Square slab
    2. Fixed square slab
    Area of steel ast
    Calculation of mpy and mpx
    Ultimate moment
    Ultimate load on slab
    Isotropically reinforced slab
    Orthotropically reinforced slab
    UNIT-5
    BRICK MASONARY
    Classification of walls
    Solid walls
    Cavity wall
    Faced wall
    Panel wall
    Parapet wall
    Counter fort
    Load relation with walls
    Types of problem
    Effective height
    Effective thickness
    Solid wall supported at the end by cross walls
    Design of cavity wall
    Cavity wall with cross wall
    Design of wall with opening
    Moment due to eccentricity

    Attachment: click here