Optimal Structural Design of Compliant Mechanisms : Considering of Quantitative Displacement Constraint
スポンサーリンク
概要
- 論文の詳細を見る
Compliant mechanisms are a relatively new breed of jointless mechanisms in which the elastic deformation is intended to be a source of motion. In the past, flexible structural design optimization was cosidered only for the direction of the flexible point by using the material density or the homogenization method to identify the optimum layout. Here we shall extend this design theory to the case of a two dimensional design for compliant mechanisms which can specify the amount of deformation of the flexible portion. Finally, some examples are presented to confirm that the verification of optimal configuration using an image-based design method.
- 一般社団法人日本機械学会の論文
- 2000-04-15
著者
-
Nishiwaki Shinji
Toyota Central R & D Labs. Inc.
-
Ejima Susumu
CAE Technology Department, Quint Corporation
-
Sekiguchi Minako
Department of Environmental and Ocean Engineering, The University of Tokyo
-
Kikuchi Noboru
Department of Mechanical Engineering and Applied Mechanics University of Michigan
-
Ejima Susumu
Cae Technology Department Quint Corporation
-
Kikuchi N
Univ. Michigan Michigan Usa
-
Kikuchi Noboru
Department Of Mechanical Engineering And Applied Mechanics The University Of Michigan
-
Sekiguchi Minako
Department Of Electronic Engineering The University Of Electro-communications
-
Sekiguchi Minako
Department Of Environmental And Ocean Engineering The University Of Tokyo
関連論文
- Optimal Structural Design of Compliant Mechanisms : Considering of Quantitative Displacement Constraint
- Structural Optimization Considering Flexibility : Integrated Design Method for Compliant Mechanisms
- New ELF Observation System at Moshiri, Japan and Assessments of Acquired Data
- Structural Optimization Considering Flexibility : Structural Design of Actuators Using Piezoceramics
- STRESS ANALYSIS OF SANDWICH PLATE BY THE HOMOGENIZATION METHOD
- Diurnal and seasonal variations in the Schumann resonance parameters at Moshiri, Japan
- Intensity of Schumann resonance oscillations and the ground surface temperature
- MICROSTRUCTURAL DESIGN OF COMPOSITES USING THE HOMOGENIZATION METHOD AND DIGITAL IMAGES
- GLOBAL-LOCAL CONSTITUTIVE MODELING OF COMPOSITE MATERIALS BY THE HOMOGENIZATION METHOD