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Dual extremum principles relating to optimum beam design

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Abstract

Of concern is a cantilever beam resting on an elastic foundation and supporting a load at the free end. The beam is of rectangular cross section and of constant height but variable width. It is required to taper the beam for maximum strength. This means that the beam is to support a maximum vertical load W at the free end when the free end is given unit deflection. The constraint is that the weight of the beam should not exceed a given bound K. It is shown that the optimum taper should be so chosen that the curvature of the beam is constant. This yields the solution of the problem in terms of explicit formulas. For more general constraints, an inequality is found which gives upper and lower bounds for the maximum load W even though explicit formulas are not available.

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Authors and Affiliations

  1. Department of Mathematics, Carnegie-Mellon University, USA

    S. Bhargava & R. J. Duffin

Authors
  1. S. Bhargava
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  2. R. J. Duffin
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Additional information

Communicated by M. E. Gurtin

This paper was prepared under Research Grant DA-ARO-D-31-124-71-G17, U.S. Army Research Office (Durham).

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Bhargava, S., Duffin, R.J. Dual extremum principles relating to optimum beam design. Arch. Rational Mech. Anal. 50, 314–330 (1973). https://doi.org/10.1007/BF00281512

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  • DOI: https://doi.org/10.1007/BF00281512

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