 Conjugate beam method

The conjugatebeam method is an engineering method to derive the slope and displacement of a beam. The conjugatebeam method was developed by H. MüllerBreslau in 1865. Essentially, it requires the same amount of computation as the momentarea theorems to determine a beam's slope or deflection; however, this method relies only on the principles of statics, so its application will be more familiar.^{[1]}
The basis for the method comes from the similarity of Eq. 1 and Eq 2 to Eq 3 and Eq 4. To show this similarity, these equations are shown below.
Integrated, the equations look like this.
Here the shear V compares with the slope θ, the moment M compares with the displacement v, and the external load w compares with the M/EI diagram. Below is a shear, moment, and deflection diagram. A M/EI diagram is a moment diagram divided my the beam's Young's modulus and moment of inertia.
To make use of this comparison we will now consider a beam having the same length as the real beam, but referred here as the "conjugate beam." The conjugate beam is "loaded" with the M/EI diagram derived from the load on the real beam. From the above comparisons, we can state two theorems related to the conjugate beam:^{[2]}
Theorem 1: The slope at a point tn the real beam is numerically equal to the shear at the corresponding point in the conjugate beam. Theorem 2: The displacement of a point in the real beam is numerically equal to the moment at the corresponding point tn the conjugate beam.^{[3]}
Contents
Conjugatebeam supports
When drawing the conjugate beam it is important that the shear and moment developed aththe supports of the conjugate beam account for the corresponding slope and displacement of the real beam at its supports, a consequence of Theorems 1 and 2. For example, as shown below, a pin or roller support at the end of the real beam provides zero displacement, but a non zero slope. Consequently, from Theorems 1 and 2, the conjugate beam must be supported by a pin or a roller, since this support has zero moment but has a shear or end reaction. When the real beam is fixed supported, both the slope and displacement are zero. Here the conjugate beam has a free end, since at this end there is zero shear and zero moment. Corresponding real and conjugate supports are shown below. Note that, as a rule, neglecting axial forces, statically determinate real beams have statically determinate conjugate beams; and statically indeterminate real beams have unstable conjugate beams. Although this occurs, the M/EI loading will provide the necessary "equilibrium" to hold the conjugate beam stable.^{[4]}
Examples of conjugate beam^{[5]} Real beam Conjugate beam Simple beam Cantilever beam Leftend Overhanging beam Bothend overhanging beam Gerber's beam (2 span) Gerber's beam (3 span) Procedure for analysis
The following procedure provides a method that may be used to determine the displacement and slope at a point on the elastic curve of a beam using the conjugatebeam method.
Conjugate beam
 Draw the conjugate beam for the real beam. This beam has the same length as the real beam and has corresponding supports as listed above.
 In general, if the real support allows a slope, the conjugate support must develop shear; and if the real support allows a displacement, the conjugate support must develop a moment.
 The conjugate beam is loaded with the real beam's M/EI diagram. This loading is assumed to be distributed over the conjugate beam and is directed upward when M/EI is positive and downward when M/EI is negative. In other words, the loading always acts away from the beam.^{[6]}
Equilibrium
 Using the equations of statics, determine the reactions at the conjugate beams supports.
 Section the conjugate beam at the point where the slope θ and displacement Δ of the real beam are to be determined. At the section show the unknown shear V' and M' equal to θ and Δ, respectively, for the real beam. In particular, if these values are positive, and slope is counterclockwise and the displacement is upward.^{[7]}
References
 OKAMURA Koichi岡村宏一 (1988). Kouzou kougaku (I) Doboku kyoutei sensyo. Kashima syuppan. ISBN 4306022250.
 ^ Hibbeler, R.C. (2009). Structural Analysis. Upper Saddle River, NJ: Pearson. pp. 328–335.
 ^ Hibbeler, R.C. (2009). Structural Analysis. Upper Saddle River, NJ: Pearson. pp. 328–335.
 ^ Hibbeler, R.C. (2009). Structural Analysis. Upper Saddle River, NJ: Pearson. pp. 328–335.
 ^ Hibbeler, R.C. (2009). Structural Analysis. Upper Saddle River, NJ: Pearson. pp. 328–335.
 ^ ^{a} ^{b} Okmamura (1988)、p.171。
 ^ Hibbeler, R.C. (2009). Structural Analysis. Upper Saddle River, NJ: Pearson. pp. 328–335.
 ^ Hibbeler, R.C. (2009). Structural Analysis. Upper Saddle River, NJ: Pearson. pp. 328–335.
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