Research on composite double-curved element with big grid and high precision

Fusheng Wang; Shengjun Qiao; Lin Hua; Zhufeng Yue

Research on composite double-curved element with big grid and high precision

Fusheng Wang, Shengjun Qiao, Lin Hua, Zhufeng Yue

School of Mechanics,Civil Engineering and Architecture

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

High precision calculation of double-curved composite was achieved by using programming 4-node and 8-node elements, which was an extension of 4-node Timoshenko laminate beam and 8-node shell element theory. It is found that the use of 8-node element achieves a more accurate result. However, the use of 4-node element is more effective since it can save much computation time, which is more applicable for the engineering computation. The dimension of the mesh of stiffener has little influence on the precision of the calculation result. The present work can be applied in designing and analyzing composite with double-curved structure.

Original language	English
Pages (from-to)	135-144
Number of pages	10
Journal	Fuhe Cailiao Xuebao/Acta Materiae Compositae Sinica
Volume	29
Issue number	2
State	Published - Apr 2012

Keywords

Big grid
Composite with double-curved structure
High precision
Programming element
Stiffener

Cite this

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abstract = "High precision calculation of double-curved composite was achieved by using programming 4-node and 8-node elements, which was an extension of 4-node Timoshenko laminate beam and 8-node shell element theory. It is found that the use of 8-node element achieves a more accurate result. However, the use of 4-node element is more effective since it can save much computation time, which is more applicable for the engineering computation. The dimension of the mesh of stiffener has little influence on the precision of the calculation result. The present work can be applied in designing and analyzing composite with double-curved structure.",

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AU - Wang, Fusheng

AU - Qiao, Shengjun

AU - Hua, Lin

AU - Yue, Zhufeng

PY - 2012/4

Y1 - 2012/4

N2 - High precision calculation of double-curved composite was achieved by using programming 4-node and 8-node elements, which was an extension of 4-node Timoshenko laminate beam and 8-node shell element theory. It is found that the use of 8-node element achieves a more accurate result. However, the use of 4-node element is more effective since it can save much computation time, which is more applicable for the engineering computation. The dimension of the mesh of stiffener has little influence on the precision of the calculation result. The present work can be applied in designing and analyzing composite with double-curved structure.

AB - High precision calculation of double-curved composite was achieved by using programming 4-node and 8-node elements, which was an extension of 4-node Timoshenko laminate beam and 8-node shell element theory. It is found that the use of 8-node element achieves a more accurate result. However, the use of 4-node element is more effective since it can save much computation time, which is more applicable for the engineering computation. The dimension of the mesh of stiffener has little influence on the precision of the calculation result. The present work can be applied in designing and analyzing composite with double-curved structure.

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KW - Composite with double-curved structure

KW - High precision

KW - Programming element

KW - Stiffener

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Research on composite double-curved element with big grid and high precision

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Keywords

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