Technology of light-weight design for wire-winding prestressed cylinder structure

Li Huili; Lang Lihui; Jiao Wei; Su Huaizhong

Volume 35 Issue 7

Jul. 2009

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Journal of Beijing University of Aeronautics and Astronautics > 2009 > 35(7): 899-903.

Li Huili, Lang Lihui, Jiao Wei, et al. Technology of light-weight design for wire-winding prestressed cylinder structure[J]. Journal of Beijing University of Aeronautics and Astronautics, 2009, 35(7): 899-903. (in Chinese)

Citation:

Li Huili, Lang Lihui, Jiao Wei, et al. Technology of light-weight design for wire-winding prestressed cylinder structure[J]. Journal of Beijing University of Aeronautics and Astronautics, 2009, 35(7): 899-903. (in Chinese)

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Technology of light-weight design for wire-winding prestressed cylinder structure

School of Mechanical Engineering and Automation, Beijing University of Aeronautics and Astronautics, Beijing 100191, China

Received Date: 19 Jun 2008
Publish Date: 31 Jul 2009

Abstract

Abstract

Based on the iso-shear stress theory a light-weight wire-winding prestressed working cylinder for isostatic pressing equipment was designed through application of the multi-island genetic algorithm. A light-weight design model was defined. The maximum inner pressure in the cylinder was 300MPa and the minimum inner diameter was 500mm. Within these specifications the weight of the design was minimized. The weight of the conventional design is 9.03 tons, and the weight of the optimized design is 8.53 tons, corresponding to a 5.5% reduction. It was verified by an expert system and CAE software that the optimized cylinder has the necessary strength, rigidity and stability and that the inner diameter is greater than 500mm after prestressed. As it was proved, the design is reasonable and the muti-island genetic algorithm is an structural optimization method which gives a fast convergence. This method can also solve the weight-optimization problems of isostatic pressing equipment for extra-high pressure.
- genetic algorithms,
- structural design,
- hot isostatic pressing,
- light weight structures,
- optimization,
- expert systems,
- simulation

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