Optimum Compliance Design of Stiffener Layout of Thin Plate : (A Treatment as Pseudocontinuous Structure)

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概要

• 論文の詳細を見る

• An optimum design technique of a stiffener layout to achieve minimum compliance is developed. A design model of a thin plate with stiffeners is treated as an anisotropic pseudocontinuum and discretized into finite elements. The minimum compliance design problem subjected to constant volume in which the angles of the stiffener arrangement and its density distributions in the orthogonal directions are varied, is solved by a recursive quadratic programming technique. Optimal stiffener layouts of a rectangular plate under some typical loading and supporting conditions are obtained numerically.

• 一般社団法人日本機械学会の論文
• 1989-01-15

著者

• Kobayashi Atushi

  Department Division Suzuki Automobile Inc.

• Yamazaki K

  Department Of Mechanical Systems Engineering Kanazawa University

• Yamazaki Kouetsu

  Department Of Mechanical Systems Engineering Kanazawa University

関連論文

• Analysis of an Elastic Contact Problem by the Boundary Element Method : (An Approach by the Penalty Function Method)
• Optimum Compliance Design of Stiffener Layout of Thin Plate : (A Treatment as Pseudocontinuous Structure)

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