Topology Optimization for the Extruded Three Dimensional Structure with Constant Cross Section
スポンサーリンク
概要
- 論文の詳細を見る
In this report, the new method of topology optimization technique that is able to deal with the three-dimensional structure with constant cross section is described. In actual design field, the structure with constant cross section is widely adopted because of manufacturing restrictions and efficient design and maintenance. A key technology is to form a longitudinal group by collecting finite elements along the sweeping curve, and the structure is constructed with these groups. Since the design variables are allocated to each group instead of to each finite element, the total number of design variables is drastically reduced. Illustrative examples are shown and the effectiveness of the proposed method is discussed.
- 一般社団法人日本機械学会の論文
- 2004-04-15
著者
-
Ishii Keizo
Quint Corporation
-
Aomura Shigeru
Department Of Precision Mechanics Tokyo Metropolitan University
-
Aomura Shigeru
Department Of Precision Engineering Tokyo Metropolitan University
関連論文
- THE DEVELOPMENT OF OPTIMAL TOPOLOGY DESIGN BASED ON DIGITAL IMAGE
- Determination of Operation Sequences with Minimum Tool-changes in Mechanical Machining
- The Evaluations of the Elasto-plastic Behavior of Composite Materials under Biaxial Stress with Homogenization Method
- ハイブリッド変位型不連続有限要素法による多角形1次要素
- Topology Optimization for the Extruded Three Dimensional Structure with Constant Cross Section
- キルヒホッフ型板曲げ要素のライスナー・ミンドラン型要素への拡張
- Simulation of Ultrasonic and Electromagnetic Wave Propagation for Nondestructive Testing of Concrete Using Image-Based FIT