Civil Engineering - RCC Structures Design - Discussion
Discussion Forum : RCC Structures Design - Section 1 (Q.No. 30)
30.
According to I.S. : 456 specifications, the safe diagonal tensile stress for M 150 grade concrete, is
Discussion:
31 comments Page 3 of 4.
Swapnil pol said:
7 years ago
@Saugat Oli.
0.35*150= 52.5.
0.35*150= 52.5.
Noblie said:
7 years ago
Thnak you @Satish.
(1)
Susmita De said:
7 years ago
As per thumb full of WSM permissible stress in;
Bending compression =Fck/3.
Direct compression = Fck /3.75.
Bending tension =Fck/7.
Direct tension = 0.5 x Flexural strength.
And because it has been stated that diagonal tension so I think it is referring to bending tension which is Fck/7= 21 which is nearer to 20.
Bending compression =Fck/3.
Direct compression = Fck /3.75.
Bending tension =Fck/7.
Direct tension = 0.5 x Flexural strength.
And because it has been stated that diagonal tension so I think it is referring to bending tension which is Fck/7= 21 which is nearer to 20.
(1)
Sunil g said:
6 years ago
Safe diagonal tensile stress is nothing but safe shear stress.
So, the answer should be 25kgf/cm2 for M15 as max shear stress is 2.5N/mm2.
So, the answer should be 25kgf/cm2 for M15 as max shear stress is 2.5N/mm2.
(2)
Eesanya said:
6 years ago
The allowable tensile stress in mild steel bars in n/mm. sq if Dia of bar is 20mm.
Lucky Nagar said:
5 years ago
Direct Tensile Stress = (0.5 to 0.625) * fck.
The factor of safety for stress (FOS) = 1.5.
We are moving forward by considering that tensile stress of concrete is minimum therefore use
Direct Tensile Stress = 0.5fck/FOS =0.5 * 15/1.5 = 5 N/mm^2.
The factor of safety for stress (FOS) = 1.5.
We are moving forward by considering that tensile stress of concrete is minimum therefore use
Direct Tensile Stress = 0.5fck/FOS =0.5 * 15/1.5 = 5 N/mm^2.
(1)
AKHIL said:
5 years ago
From Clause 6.2.2 of IS 456 : 2000.
Diagonal Tensile Strength = 1/2 * Flexural strength (fcr).
Flexural strength ( fcr ) = 0.7 * fck,
So, Diagonal Tensile strength = 0.35* fck,
= 0.35 * 150 = 5.
Diagonal Tensile Strength = 1/2 * Flexural strength (fcr).
Flexural strength ( fcr ) = 0.7 * fck,
So, Diagonal Tensile strength = 0.35* fck,
= 0.35 * 150 = 5.
(2)
Sindhu said:
4 years ago
Diagonal tension stress:large shear force & And less bending moment.
(1)
Bairagi said:
4 years ago
Thanks @Satish Suman.
(1)
Anujit said:
4 years ago
Diagonal Tensile Strength = 1/2 * Flexural strength.
Flexural strength = 0.7 * fck,
So, Diagonal Tensile strength = 0.35* fck, = 0.35 * 150 = 4.28~5.
Flexural strength = 0.7 * fck,
So, Diagonal Tensile strength = 0.35* fck, = 0.35 * 150 = 4.28~5.
(5)
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