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Cantilever method - Approximate analysis of fixed and continuous beams, Strength of Materials | Strength of Material Notes - Agricultural Engg - Agricultural Engineering PDF Download

Introduction : In this lesson we will learn another method, called the Cantilever method for approximate analysis of rigid frames subjected to lateral load. Similar to the Portal method as discussed in the previous lecture, the Cantilever method is also based on few assumptions. These assumptions are as follows,

  • There is a point of inflection at the mid-point of each girder and column.

  • The axial load in each column of a storey is proportional to the horizontal distance of the that column from the centre of gravity of all the column of the storey under consideration.

The above two assumptions give additional equations required for solving unknown reaction components. The method is illustrated via the following examples.

Examples


Fig. 21.1.

Fig. 21.2.

Free body diagrams of different parts of the structures are shown in Fgiure 20.7. Assuming all columns have the same cross-sectional area, the centre of gravity of the columns for each storey is, \[(3 + 7)/3 = 3.33{\rm{m}}\]  from A. Therefore, \[{F_M}\]  , \[{F_N}\] and \[{F_O}\]  are related as,

\[{F_N} = {{3.33 - 3} \over {3.33}}{F_M} = 0.1{F_M}\]   and   \[{F_O} = {{3.33 - 7} \over {3.33}}{F_M} =-1.10{F_M}\]

Taking moment about O of all the forces acting on the part above the horizontal plane passing through the points of inflection of the columns of the first storey,

we have,

\[\sum {{M_O}}=0 \Rightarrow 7 \times {F_M} + 4 \times {F_N} + 2 \times 20 + 5 \times 10 = 0\]

\[ \Rightarrow 7 \times {F_M} + 4 \times 0.1{F_M} =-90 \Rightarrow-12.162{\rm{kN}}\]

Hence,

\[{F_N}=0.1{F_M}=-1.216{\rm{kN}}\]  and  \[{F_O} =-1.10{F_M}=13.378{\rm{kN}}\]

\[{F_P}\] , \[{F_Q}\]  and \[{F_R}\] will also follow the similar proportion. Therefore,

\[{F_Q}=0.1{F_P}\]  and  \[{F_R}=-1.10{F_P}\]

Now taking moment about R, we have,

\[\sum {{M_R}}=0 \Rightarrow 7 \times {F_P} + 4 \times {F_Q} + 2 \times 10 = 0\]

\[\Rightarrow 7 \times {F_P} + 4 \times 0.1 \times {F_P}=-20 \Rightarrow {F_P}=-2.70{\rm{kN}}\]

\[{F_Q} = 0.1{F_P}=-0.27{\rm{kN}}\]  and  \[{F_R}=-1.10{F_P}=2.97{\rm{kN}}\]

\[\sum {{M_U}}=0 \Rightarrow 1.5 \times {V_P} + 1.5 \times {F_P} = 0 \Rightarrow {V_P} = 2.7{\rm{kN}}\]

\[\sum {{M_V}}=0 \Rightarrow 1.5 \times {V_R}-2 \times {F_R}=0 \Rightarrow {V_R}=3.96{\rm{ kN}}\]

\[{V_P} + {V_Q} + {V_R}=10 \Rightarrow {V_Q}=3.07{\rm{kN}}\]

\[{F_M} - {F_P} - {V_S}=0 \Rightarrow {V_S}=-9.462{\rm{kN}}\]

\[\sum {{M_D}}=1.5 \times {V_P} + 2 \times {V_M} + 1.5 \times {V_S}=0 \Rightarrow {V_M}=5.07{\rm{ kN}}\]

\[{A_x}={V_M}=5.07{\rm{ kN}}\]

\[{A_y}={F_M}=-12.162{\rm{ kN}}\]

\[\sum {{M_M}}=0 \Rightarrow {M_A} + 2 \times {A_x}=0 \Rightarrow {M_A}=-10.14{\rm{ kNm}}\]

An illustration of determining unknown support reactions at A is given above. Similarly by considering free body diagram of different parts as shown in Figure 21.2 and applying equlibrium conditions, other support reactions and member forces can also be determined.

The document Cantilever method - Approximate analysis of fixed and continuous beams, 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 Cantilever method - Approximate analysis of fixed and continuous beams, Strength of Materials - Strength of Material Notes - Agricultural Engg - Agricultural Engineering

1. What is the cantilever method?
Ans. The cantilever method is an approximate analysis technique used for analyzing fixed and continuous beams. It simplifies the beam into a series of cantilevers and determines the bending moment and shear force at various sections of the beam.
2. How does the cantilever method work?
Ans. The cantilever method works by dividing the beam into several segments or cantilevers. Each cantilever is treated as an independent beam and analyzed separately. The method assumes that the beam's bending moment and shear force distribution can be approximated by considering the effects of the loads and supports on each cantilever.
3. When is the cantilever method used in structural analysis?
Ans. The cantilever method is commonly used in structural analysis when analyzing fixed and continuous beams. It provides a simplified approach to determine the internal forces and bending moments in a beam without the need for complex mathematical calculations. It is particularly useful for quick estimations and initial design considerations.
4. What are the advantages of using the cantilever method?
Ans. The advantages of using the cantilever method include: - It provides a simplified approach to analyze fixed and continuous beams. - It requires fewer calculations compared to other analytical methods. - It allows for quick estimations of internal forces and bending moments. - It is useful for initial design considerations and feasibility studies. - It can be easily understood and applied by engineers and designers without extensive mathematical knowledge.
5. Are there any limitations to the cantilever method?
Ans. Yes, there are limitations to the cantilever method. Some of the limitations include: - It is an approximate analysis method and may not provide highly accurate results. - It assumes linear elastic behavior of materials, which may not hold true for certain situations. - It may not be suitable for analyzing complex beam configurations or non-linear structural behavior. - It does not consider the effects of secondary moments or lateral torsional buckling. - It may require additional refinement and verification using more rigorous analysis methods for critical or highly loaded structures.
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