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Shear Stresses In Beams
SHEAR STRESS DISTRIBUTION
(i) Rectangular Beam
- The intensity of shear at a fiber on the plane of cross-section located.the level of EF at a distance y form the neutral axis is given by,
Where S = SF at the section
= moment of the area above
EF y = distance form neutral axis.
I = moment of inertia about N.A.
b = width of the beam at the level EF
- Shear stress in terms of y form N.A. is given by
- Average shear stress is given by
- Maximum shear stress occurs at the N.A. and is given by
Hence 
- The distance from N.A. at which the average shear stress is equal to the local shear stress
(ii) Solid Circular Section
- The shear stress at a fibre on the plane of cross-section located at a distance y from neutral axis is given by
- Maximum shear stress occurs at the N.A. & is given by
- Average shear stress is given by
Hence
- The distance from N.A. at which the local shear stress is equal to average shear stress is given by t avg= t local
(iii) Triangular Section
- Shear stress at a distance y form vortex is given by
- Maximum shear stress exists at y = h/2 (at the middle of triangle) and is given by
- Average shear stress is given by
- Shear stress at N.A.
is given by
(iv) Diamond Section
- Shear stress at level PQ is given by
- Shear stress at N.A.
- Average shear stress =
Hence ζn.a. = ζavg
- Maximum shear stress occurs at 3/8 d form top and bottom or d/8 form neutral axis
Hence 
(V) I Section
- Shear Stress distribution in flange:
- Shear stress at the junction of flange & web, but within the flange.
- Shear stress distribution within the web
- Maximum shear stress exists at N.A. and is given by
- Shear stress at the junction of web and flange but within the web
- Shear stress distribution in some other section:
CORE OF SECTIONS OF DIFFERENT SHAPES
1. Rectangular Section In order that tension may not develop, we have the condition
wherek = radius of gyration of the section with respect to the NA
d = depth of the section
Thus, for not tension in the section, the eccentricity must not exceed 
.
For a rectangular section of width b and depth d.
and A = b.d.
Hence 
Substituting this value of k, we get
or 
Thus the stress will be wholly compressive throughout the section, if the line of action of P falls within the rhombus (as shaded portion of figure), the diagonals of which are of length d/3 and b/3 respectively. This rhombus is called the core or kern of the rectangular section.
2. Solid Circular Section
The core of a solid circular section is a circle, with the same centre, and diameter d/4.
3. Hollow Circular Section
For a hollow circular section,
Hence the core for a hollow circular section is a concentric circle of diameter 
where d = inner diameter, D = outer diameter.
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FAQs on Shear Stresses in Beams - Civil Engineering SSC JE (Technical) - Civil Engineering (CE)
| 1. What are shear stresses in beams in civil engineering? |  |
Ans. Shear stresses in beams refer to the internal forces that act parallel to the cross-sectional area of a beam. These stresses occur due to the shear forces that are developed when a beam is subjected to external loads. Shear stresses are important in civil engineering as they determine the structural integrity and stability of beams.
| 2. How are shear stresses calculated in beams? | |
Ans. Shear stresses in beams can be calculated using the formula τ = VQ / It, where τ is the shear stress, V is the shear force, Q is the first moment of area about the neutral axis, I is the moment of inertia of the cross-section, and t is the thickness of the beam. This formula takes into account the distribution of shear stress across the cross-section of the beam.
| 3. What is the significance of shear stresses in beam design? | |
Ans. Shear stresses play a crucial role in beam design as they determine the maximum load-carrying capacity of a beam. If shear stresses exceed the strength of the beam material, it can lead to shear failure. Proper consideration of shear stresses is essential to ensure the safety and structural integrity of beams in civil engineering projects.
| 4. How do shear stresses affect the behavior of beams? | |
Ans. Shear stresses significantly affect the behavior of beams. Excessive shear stresses can cause the beam to deform or fail. Shear stresses can lead to shear cracks, shear deformations, and even shear buckling in beams. Understanding the distribution and magnitude of shear stresses is necessary to design beams that can withstand the applied loads.
| 5. What are some common methods to mitigate shear stresses in beams? | |
Ans. There are several methods to mitigate shear stresses in beams. Reinforcing the beam with stirrups or shear reinforcement can increase its shear capacity. Increasing the depth or width of the beam can also help in distributing the shear stresses over a larger area. Additionally, using high-strength materials or prestressing techniques can enhance the resistance to shear stresses in beams.
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