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ホモロガス変形を目的とする連続体の形状決定
http://hdl.handle.net/2237/7244
490601cf-0945-44f1-ac3c-6adaa0717667
| 名前 / ファイル | ライセンス | アクション | |
|---|---|---|---|
JSME-A62-2831.pdf (716.2 kB)
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| Item type | 学術雑誌論文 / Journal Article(1) | |||||
|---|---|---|---|---|---|---|
| 公開日 | 2007-01-15 | |||||
| タイトル | ||||||
| タイトル | ホモロガス変形を目的とする連続体の形状決定 | |||||
| その他のタイトル | ||||||
| その他のタイトル | Shape Determination of Continua for Homologous Deformation | |||||
| 著者 |
下田, 昌利
× 下田, 昌利× Shimoda, Masatoshi× 畔上, 秀幸× Azegami, Hideyuki× 桜井, 俊明× Sakurai, Toshiaki |
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| 権利 | ||||||
| 権利情報 | 日本機械学会 | |||||
| キーワード | ||||||
| 主題Scheme | Other | |||||
| 主題 | Optimum Design | |||||
| キーワード | ||||||
| 主題Scheme | Other | |||||
| 主題 | Computational Mechanics | |||||
| キーワード | ||||||
| 主題Scheme | Other | |||||
| 主題 | Finite-Element Method | |||||
| キーワード | ||||||
| 主題Scheme | Other | |||||
| 主題 | Structural Analysis | |||||
| キーワード | ||||||
| 主題Scheme | Other | |||||
| 主題 | Shape Identification | |||||
| キーワード | ||||||
| 主題Scheme | Other | |||||
| 主題 | Shape Optimization | |||||
| キーワード | ||||||
| 主題Scheme | Other | |||||
| 主題 | Homologous Deformation | |||||
| キーワード | ||||||
| 主題Scheme | Other | |||||
| 主題 | Homology Design Displacement Control | |||||
| キーワード | ||||||
| 主題Scheme | Other | |||||
| 主題 | Traction Method | |||||
| キーワード | ||||||
| 主題Scheme | Other | |||||
| 主題 | Adjoint Variable Method | |||||
| キーワード | ||||||
| 主題Scheme | Other | |||||
| 主題 | Material Derivative | |||||
| 抄録 | ||||||
| 内容記述タイプ | Abstract | |||||
| 内容記述 | In this paper we present a numerical analysis method for the boundary design of continua in order to control the displacement mode to a prescribed mode,which is known as the homology design.As an objective functional,we introduce a squared displacement error norm on the prescribed boundaries.Using the Lagrange multiplier method, a shape identification problem subject to a volume constraint is formulated. The shape gradient function derived using the material derivative method and the adjoint variable method is used in the traction method.With the traction method, the domain variation that minimizes the objective functional is numerically and iteratively determined. The state equation and the adjoint equation are solved using a genaral-purpose FEM code to evaluate the objective functional and the shape gradient function.The calculated results of 2D and 3D problems show the effectiveness and practical utility of the proposed method to control the displacement mode. | |||||
| 出版者 | ||||||
| 出版者 | 日本機械学会 | |||||
| 言語 | ||||||
| 言語 | jpn | |||||
| 資源タイプ | ||||||
| 資源 | http://purl.org/coar/resource_type/c_6501 | |||||
| タイプ | journal article | |||||
| ISSN | ||||||
| 収録物識別子タイプ | ISSN | |||||
| 収録物識別子 | 03875008 | |||||
| 書誌情報 |
日本機械学会論文集 A編 巻 62, 号 604, p. 2831-2837, 発行日 1996-12 |
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| フォーマット | ||||||
| application/pdf | ||||||
| 著者版フラグ | ||||||
| 値 | publisher | |||||
| URI | ||||||
| 識別子 | http://hdl.handle.net/2237/7244 | |||||
| 識別子タイプ | HDL | |||||
