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AHSANULLAH UNIVERSITY OF SCIENCE
AND TECHNOLOGY
PRE-STRESSED CONCRETE LABCE-416
Name: Md. Shahadat HossainID: 10.01.03.154
Section: CCourse Teachers:
Mr. Galib Muktadir(Lecturer) & Sabreena N. Mouri(Assist. Prof)
Department of Civil Engineering
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Presentation onRectangular beam design : singly and doubly reinforced beam by WSD
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What is a Beam? A Beam is any structural member which resists load mainly
by bending. Therefore it is also called flexural member. Beam may be singly reinforced or doubly reinforced. When steel is provided only in tensile zone (i.e. below neutral axis) is called singly reinforced beam, but when steel is provided in tension zone as well as compression zone is called doubly reinforced beam.
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Necessity of reinforcement in beam:
longitudinal reinforcement is placedclosed to the bottom side of the beam
Concrete is good in compression and bad in tension.Tensile strength of concrete is about 1/10 of f’c.
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Behaviour of a beam under loads
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RCC design methods:
RCC design method
USD method
WSD method
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Working stress design method (WSD) This design concept is based on elastic theory, assuming a straight line
stress distribution along the depth of the concrete. Concrete response elastically upto compressive strength not exceeding about ½ of its strength, while steel remains elastic practically upto yield strength. So, in practically, allowable stresses are set at about ½ the concrete compressive strength and ½ the yield stress of steel.
The concrete remain elastic at ½×f’c which range to strain of about 0.0005 and the steel is elastic near to it’s yield point or strain of 0.002.
According to ACI code the value is equal to 0.45× f’c .
Assumptions:1) Section remains plane2) Stress proportioned to Strain3) Concrete not take tension4) No concrete-steel slip
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Fig: Steel stress-strain curveFig: Concrete stress-strain curve
Both of the material’s stress is proportional to strain
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Design Conditions:
1) Stress elastic and sections uncracked: Tensile strength of concrete fct <Modulus of rupture fr
Compressive stress of concrete fc << ½ f’cTensile stress in steel fs < fy yield strength of steel
2) Stress elastic and section cracked:Tensile strength of concrete fct > Modulus of rupture fr
Compressive stress of concrete fc < ½ f’c
Tensile stress in steel fs < fy yield strength of steel
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Singly reinforced beam :
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Strain compatibility:
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Doubly reinforced beam :
If concrete section cannot develop the required compressive force to resist the maximum bending moment then additional reinforcement is added in the compression.
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Resisting Moment:
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Strain compatibility :
ACI recommended that f’s be equal to twice this value
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Following are some advantages of Allowable stress design method
• Elastic analysis for loads become compatible for design.
• Old famous books are according to this method.
• Experienced engineers are used to this method.
• In past it was the only method for design purposes.
• This method is included in AISC-05 specifications as an alternate method.
Advantages of Using WSD method
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• Latest research and literature is very limited.
• Same factor of safety is used for different loads.
• Failure mode is not directly predicted.• With some overloading, the material
stresses increase but do not go to collapse.
• The failure mode can not be observed.• The warning before failure cannot be
studied precisely.• Results cannot be compared with
experimental tests up to collapse.
Disadvantages of Using WSD method
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