1. Eccentric Connections in Steel Structures

2. CONTENT Introduction Literature Review Theoretical Background
Conclusion
References

3. Introduction 1) Types of connection
2) Connection Subjected to eccentric shear
3) Methods of analysis

4. TYPES OF CONNECTIONS SIMPLE CONNECTIONS ECCENTRIC CONNECTIONS
Basis of classification – C.G of connection & load axis.

5. Applied load passes through C.G of connections
SIMPLE CONNECTIONS
Applied load passes through C.G of connections
Fig -1a
Fig -1b

6. ECCENTRIC CONNECTIONS
Applied load does not pass through C.G of connections
Fig 2

7. CONNECTIONS SUBJECTED TO ECCENTRIC SHEAR
Seat Connections
Framed Connections
Bracket Connections

8. Fig 3a – Unstiffened Seat Connections

9. Fig 3b – Stiffened Seat Connections

10. FRAMED CONNECTIONS
Fig - 4

11. Theoretical Background
BRACKET CONNECTIONS
BOLTED BRACKET CONNECTIONS TYPE 1
Fig 5

12. FORCES ON BRACKET TYPE 1
Fig 6

13.  From the assumption made in the concentric bolted joints, ‘ the load over the joint is shared equally by all the bolts’ ,force in any bolt due to direct load is,
𝐹 1 = 𝑃 𝑛 (1)
We know that,
𝑇 𝐽 = 𝑓 𝑟
And also
Force = Stress * Area
Therefore,
𝐹 2 ∝𝑟
F2 = k*r
𝑘= 𝐹 2 𝑟

14. Therefore, the Torque about the center of rotation of the bolt group
= 𝐹 2 𝑟=𝑘𝑟𝑟=𝑘 𝑟 2
Total resisting toq = 𝑘𝑟 2
=𝑘 𝑟 2
= 𝐹 2 𝑟 𝑟 2
The resisting torque should be equal to torque over the connection. Hence,
𝑀= 𝐹 2 𝑟 𝑟 2
𝑃 𝑒 0 = 𝐹 2 𝑟 𝑟 2
𝑃 𝑒 0 𝑟 𝑟 2 = 𝐹 2

15. Force F2 is maximum when distance r is maximum
Force F2 is maximum when distance r is maximum. Let the distance of the extreme bolt be rn . then,
𝐹 2 = 𝑃 𝑒 0 𝑟 𝑛 𝑟 (2)
The two forces F1 and F2 act at some angle on various bolts in the connection. Let 𝜃 be the angle between these forces on the critical bolt. Then the resultant force F on the critical bolt will be
𝐹= ( 𝐹 𝐹 𝐹 1 𝐹 2 cos 𝜃 ) (3)
For the connection to be safe, this force must be less than the strength of the bolt.

16. BOLTED BRACKET CONNECTIONS TYPE 2
Fig 7

18. Where,
M = Pe0 moment in Nmm, caused by the eccentric load
e0 = the eccentricity of the load P from the bolt plane to the line of action of load in mm
P = the load acting over the joint in N
M’ = moment of resistance provided by bolts in tension
Vb = force in a bolt due to direct shear P
Tb = tensile force in the bolt due to bending moment (Pe0)
n = number of bolts in the bolt group
y1,y2….yn = distance of the bolts in tension from the axis of rotation
y = distance as shown in figure.

19. WELDED BRACKET CONNECTIONS TYPE 1

20. WELDED BRACKET CONNECTIONS TYPE 2

21. Thank You