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Buckling and Stability & Euler Load - Columns and Struts, Strength of Materials | Strength of Material Notes - Agricultural Engg - Agricultural Engineering PDF Download

Buckling and Stability

Lateral bending of a straight slender member from its longitudinal position due to compression is referred to as buckling. Buckling is encountered in many practical columns. Load at which buckling occurs depends on many factors such as material strength, geometry of the column, end conditions etc. In this module we will learn different methods for determining buckling load of slender columns.

Euler Load for Columns with Pinned End

Assumptions

  • Member is prismatic and perfectly straight.
  • The material is homogeneous and linear elastic.
  • One end of the member is hinged and the other is restrained against horizontal movement as shown in Figure 22.2a.
  • The compressive load is acting along the longitudinal axis of the member.
  • Lateral deformation of the member is small.
Buckling and Stability & Euler Load - Columns and Struts, Strength of Materials | Strength of Material Notes - Agricultural Engg - Agricultural Engineering  View Answer

Fig. 22.2.

From equation of elastic line (lesson 3), we have,.

\[{{{d^2}y} \over {d{x^2}}}=-{{{M_x}} \over {EI}}\]                                                             (22.1)

\[\Rightarrow {{{d^2}y} \over {d{x^2}}} + {P \over {EI}}y = 0\]                                            (22.2)

Equation (22.2) is a second order linear differential equation with constant coefficients. Boundary conditions are,

\[y(x = 0) = y(x = l) = 0\]              (22.3)

Equations (22.2) – (22.3) define a linear eigenvalue problem, whose solution may be written as,

\[y = A\cos kx + B\sin kx\]            (22.4)

where, \[{k^2} = {P / {EI}}\] . Constants A and B may be determined from the boundary conditions (Equation 22.3),

Imposing y(x = 0) = 0 we have A = 0.

Imposing y(x = l) = 0 we have,

\[B\sin kl = 0\]                                (22.5)

As B ≠ 0 , \[\sin kl = 0 \Rightarrow kl = n\pi \]

where,

Hence,

\[{k^2} = {P \over {EI}} = {{{n^2}{\pi ^2}} \over {{l^2}}}\]

\[\Rightarrow {P_{crn}} = {{{n^2}{\pi ^2}} \over {{l^2}}}EI\]                                                (22.6)

The eigenvalues \[{P_{crn}}\]  are the critical loads at which buckling takes place in different modes which are given by,

\[y = B\sin {{n\pi x} \over l}\]      (22.7)

The smallest Euler buckling load is (n = 1),

\[{P_E} = {{{\pi ^2}EI} \over {{l^2}}}\]                                                                                        (22.8)

Euler Load for Columns with Different End Conditions

Equation (22.8) may be recast as,

\[{P_E} = {{{\pi ^2}EI} \over {l_{eff}^2}}\]                                                                                 (22.8)

where, leff is the effective length of the column. For column with both ends hinged, leff = l. Different end condition may increase or decrease the effective length and consequently change the critical buckling load. Effective lengths of column with different end conditions are given below.

Fig. 22.3.

The document Buckling and Stability & Euler Load - Columns and Struts, Strength of Materials | Strength of Material Notes - Agricultural Engg - Agricultural Engineering is a part of the Agricultural Engineering Course Strength of Material Notes - Agricultural Engg.
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FAQs on Buckling and Stability & Euler Load - Columns and Struts, Strength of Materials - Strength of Material Notes - Agricultural Engg - Agricultural Engineering

1. What is buckling and stability in the context of columns and struts?
Ans. Buckling refers to the sudden lateral deflection or bending of a column or strut when subjected to compressive loads. Stability, on the other hand, refers to the ability of a column or strut to resist buckling and maintain its equilibrium under the applied loads.
2. How is Euler's load related to columns and struts?
Ans. Euler's load, also known as the critical load or buckling load, is the maximum load that a column or strut can withstand without buckling. It is calculated using Euler's formula, which takes into account the material properties, cross-sectional area, length, and end conditions of the column or strut.
3. What factors affect the buckling and stability of columns and struts?
Ans. The buckling and stability of columns and struts are influenced by several factors, including the material properties (such as modulus of elasticity), cross-sectional shape, length, end conditions (such as fixed, hinged, or free), and the magnitude and direction of the applied loads.
4. What are the consequences of column or strut buckling?
Ans. When a column or strut buckles, it loses its ability to carry the applied loads effectively. This can result in a sudden failure or collapse of the structure, leading to potential damage or injury. Therefore, it is crucial to design columns and struts considering their buckling behavior to ensure structural stability and safety.
5. How can the strength of columns and struts be improved to prevent buckling?
Ans. To enhance the strength of columns and struts and prevent buckling, several measures can be taken. These include using materials with higher modulus of elasticity, increasing the cross-sectional area of the column or strut, providing adequate bracing or support, and considering appropriate end conditions and load distributions in the design process. Additionally, reinforcing techniques such as using steel plates or fiber-reinforced polymers can also be employed to improve the strength and stability of columns and struts.
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