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A one-way both ends continuous slab is to support the moments tabulated. Consider L=5m,  Fc’=21MPa and fy = 415 MPA.   Dead load Moments: +42kN.m at midspan ; -67 kN.m at support   Live load Moment: +40kN.m at midspan, -44kN.m at support.   Determine the minimum thickness of the slab.

A one-way both ends continuous slab is to support the moments tabulated. Consider L=5m,  Fc’=21MPa and fy = 415 MPA.   Dead load Moments: +42kN.m at midspan ; -67 kN.m at support   Live load Moment: +40kN.m at midspan, -44kN.m at support.   Determine the minimum thickness of the slab.

Structural Analysis
Structural Analysis
6th Edition
ISBN:9781337630931
Author:KASSIMALI, Aslam.
Publisher:KASSIMALI, Aslam.
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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*Subject: Reinforced prestressed concrete - Civil Engineering

*Please refer for my attached formula or guidelines solve this problem

 

A one-way both ends continuous slab is to support the moments tabulated. Consider L=5m,  Fc’=21MPa and fy = 415 MPA.

 

Dead load Moments: +42kN.m at midspan ; -67 kN.m at support

 

Live load Moment: +40kN.m at midspan, -44kN.m at support.

 

Determine the minimum thickness of the slab.

 

 

MINIMUM THICKNESS OF NON-PRESTRESSED BEAMS AND ONE WAY SLABS UNLESS DEFLECTIONS ARE COMPUTED Solid One-Way Slab Beams or ribbed one way slab Simply General Procedure Supported L/20 Ru L/16 = 5. One end continuous ■ For structural lightweight concrete the values shall be multiplied by (1.65 -0.0005 Wc) but not less than 1.09, where Wc is the unit mass in kg/m³. ■ For fy other 415 MPa, the values shall be multiplied by (0.4 +fy/700) PLEASE REFER 5. Compute design constants Span Length L in millimeters Values given shall be used directly for members with normal density concrete and Grade 60 (415 MPa) reinforcement. For other conditions, the values shall be modified as follows: Mu obd 2 L/24 L/18.5 Design of one way slab Given: Loads, type of slab, fc,fy, WHIS FORMULA AND Req'd: t, size and spacing of main bars GUIDELINES temperature bars 1. Determine the minimum slab thickness t using table for minimum thickness of non prestressed beams and one way slab. This thickness should be at least 75 mm 2. Compute the weight of the slab (this is to be added to the given dead load) 3. Calculate the design moment Mu 4. Compute the effective depth d m = d = t - covering - ½ bar diameter (minimum of 12 mm) p>Pmin Solve for As 0.85 fc' Both ends continuous L/28 p=₁ L/21 1 As = pbd 6. Solve for the spacing of bars m S = Cantilever A1000 A where : A₁ = area of 1 bar Use the smallest of the following b)3t c) 450 mm L/10 L/8 2mR. fy a)S 7. Solve for area of temperature bars A₁ = 0.002bt, A₁ = 0.0018bt, A₁ = 0.0018(400)bt/fy 8. Solve for the spacing of temperature bars S₁ = ¹¹1000 A₁ where : A₁ = area of 1 temperature bar (minimum of 10mm dia.) Use the smallest of the following a) St b) 5t c)450 mm
Transcribed Image Text:MINIMUM THICKNESS OF NON-PRESTRESSED BEAMS AND ONE WAY SLABS UNLESS DEFLECTIONS ARE COMPUTED Solid One-Way Slab Beams or ribbed one way slab Simply General Procedure Supported L/20 Ru L/16 = 5. One end continuous ■ For structural lightweight concrete the values shall be multiplied by (1.65 -0.0005 Wc) but not less than 1.09, where Wc is the unit mass in kg/m³. ■ For fy other 415 MPa, the values shall be multiplied by (0.4 +fy/700) PLEASE REFER 5. Compute design constants Span Length L in millimeters Values given shall be used directly for members with normal density concrete and Grade 60 (415 MPa) reinforcement. For other conditions, the values shall be modified as follows: Mu obd 2 L/24 L/18.5 Design of one way slab Given: Loads, type of slab, fc,fy, WHIS FORMULA AND Req'd: t, size and spacing of main bars GUIDELINES temperature bars 1. Determine the minimum slab thickness t using table for minimum thickness of non prestressed beams and one way slab. This thickness should be at least 75 mm 2. Compute the weight of the slab (this is to be added to the given dead load) 3. Calculate the design moment Mu 4. Compute the effective depth d m = d = t - covering - ½ bar diameter (minimum of 12 mm) p>Pmin Solve for As 0.85 fc' Both ends continuous L/28 p=₁ L/21 1 As = pbd 6. Solve for the spacing of bars m S = Cantilever A1000 A where : A₁ = area of 1 bar Use the smallest of the following b)3t c) 450 mm L/10 L/8 2mR. fy a)S 7. Solve for area of temperature bars A₁ = 0.002bt, A₁ = 0.0018bt, A₁ = 0.0018(400)bt/fy 8. Solve for the spacing of temperature bars S₁ = ¹¹1000 A₁ where : A₁ = area of 1 temperature bar (minimum of 10mm dia.) Use the smallest of the following a) St b) 5t c)450 mm
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