Abstract
The stress-ratio algorithm associated with fully stressed design philosophy has been used as a convenient tool to achieve minimum weight design of strength-limited structures. The algorithm is effective and converges quickly for many cases. However, it presents extremely slow oscillatory iteration histories for plate-thickness design problems that involve transverse bending loads. Modification of the basic algorithm presented in this paper provides an effective remedy to this problem when both membrane and bending loads are present. The modified resizing algorithm requires numerical solutions of a fourth-order algebraic equation. No additional data, beyond the ordinary static analysis results, are required.
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Communicated by J. Sobieski
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Miura, H. An improved fully stressed design algorithm for plate/shell structures. Structural Optimization 2, 233–237 (1990). https://doi.org/10.1007/BF01748228
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DOI: https://doi.org/10.1007/BF01748228