Safety analysis for large aircraft wing-fuselage joint structure with random uncertainty

Cheng Huang; Yanping Wang; Zizheng Yang; Zhenzhou Lu

Safety analysis for large aircraft wing-fuselage joint structure with random uncertainty

Cheng Huang, Yanping Wang, Zizheng Yang, Zhenzhou Lu

School of Aeronautics

Northwestern Polytechnical University Xian

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Non-linear finite element (FE) methods and reliability techniques are used to determine the safety degree of the large aircraft wing-fuselage joint structure with random uncertainty. The randomness of the basic parameters, such as loadings, physical properties and geometrical parameters are considered in the safety analysis. For the given original basic parameters, the response of the stress-strain in the joint structure can be easily calculated by the standard finite element software, but it is very difficult to get the probability safety degree due to its implicit limit state equation. Two numerical algorithms, response surface method(RSM) and advanced mean value first order method(AMVFOM), are combined with the standard FE software for the reliability analysis of the joint structure. The advantages and disadvantages of these two numerical methods are illustrated by the analysis of the strength reliability, stiffness reliability and hybrid strength-stiffness reliability of the joint structure. The results show that the two numerical algorithms are not time consuming comparing with Monte Carlo Method, and the presented methods are acceptable compromise between the accuracy and the computational effort.

Original language	English
Title of host publication	Progress in Safety Science and Technology Volume 4
Subtitle of host publication	Proceedings of the 2004 International Symposium on Safety Science and Technology
Editors	W. Yajun, H. Ping, L. Shengcai
Pages	1794-1798
Number of pages	5
Edition	PART B
State	Published - 2004
Event	Progress in Safety Science and Technology Volume 4: Proceedings of the 2004 International Symposium on Safety Science and Technology - Shanghai, China Duration: 25 Oct 2004 → 28 Oct 2004

Publication series

Name	Progress in Safety Science and Technology Volume 4:Proceedings of the 2004 International Symposium on Safety Science and Technology
Number	PART B

Conference

Conference	Progress in Safety Science and Technology Volume 4: Proceedings of the 2004 International Symposium on Safety Science and Technology
Country/Territory	China
City	Shanghai
Period	25/10/04 → 28/10/04

Keywords

Finite element
Reliability
Response surface method

Cite this

Huang, C., Wang, Y., Yang, Z., & Lu, Z. (2004). Safety analysis for large aircraft wing-fuselage joint structure with random uncertainty. In W. Yajun, H. Ping, & L. Shengcai (Eds.), Progress in Safety Science and Technology Volume 4: Proceedings of the 2004 International Symposium on Safety Science and Technology (PART B ed., pp. 1794-1798). (Progress in Safety Science and Technology Volume 4:Proceedings of the 2004 International Symposium on Safety Science and Technology; No. PART B).

Huang, Cheng ; Wang, Yanping ; Yang, Zizheng et al. / Safety analysis for large aircraft wing-fuselage joint structure with random uncertainty. Progress in Safety Science and Technology Volume 4: Proceedings of the 2004 International Symposium on Safety Science and Technology. editor / W. Yajun ; H. Ping ; L. Shengcai. PART B. ed. 2004. pp. 1794-1798 (Progress in Safety Science and Technology Volume 4:Proceedings of the 2004 International Symposium on Safety Science and Technology; PART B).

@inproceedings{72c9f07821fb4329a8c97279d9d1d3b3,

title = "Safety analysis for large aircraft wing-fuselage joint structure with random uncertainty",

abstract = "Non-linear finite element (FE) methods and reliability techniques are used to determine the safety degree of the large aircraft wing-fuselage joint structure with random uncertainty. The randomness of the basic parameters, such as loadings, physical properties and geometrical parameters are considered in the safety analysis. For the given original basic parameters, the response of the stress-strain in the joint structure can be easily calculated by the standard finite element software, but it is very difficult to get the probability safety degree due to its implicit limit state equation. Two numerical algorithms, response surface method(RSM) and advanced mean value first order method(AMVFOM), are combined with the standard FE software for the reliability analysis of the joint structure. The advantages and disadvantages of these two numerical methods are illustrated by the analysis of the strength reliability, stiffness reliability and hybrid strength-stiffness reliability of the joint structure. The results show that the two numerical algorithms are not time consuming comparing with Monte Carlo Method, and the presented methods are acceptable compromise between the accuracy and the computational effort.",

keywords = "Finite element, Reliability, Response surface method",

author = "Cheng Huang and Yanping Wang and Zizheng Yang and Zhenzhou Lu",

year = "2004",

language = "英语",

isbn = "7030143868",

series = "Progress in Safety Science and Technology Volume 4:Proceedings of the 2004 International Symposium on Safety Science and Technology",

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pages = "1794--1798",

editor = "W. Yajun and H. Ping and L. Shengcai",

booktitle = "Progress in Safety Science and Technology Volume 4",

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note = "Progress in Safety Science and Technology Volume 4: Proceedings of the 2004 International Symposium on Safety Science and Technology ; Conference date: 25-10-2004 Through 28-10-2004",

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Huang, C, Wang, Y, Yang, Z & Lu, Z 2004, Safety analysis for large aircraft wing-fuselage joint structure with random uncertainty. in W Yajun, H Ping & L Shengcai (eds), Progress in Safety Science and Technology Volume 4: Proceedings of the 2004 International Symposium on Safety Science and Technology. PART B edn, Progress in Safety Science and Technology Volume 4:Proceedings of the 2004 International Symposium on Safety Science and Technology, no. PART B, pp. 1794-1798, Progress in Safety Science and Technology Volume 4: Proceedings of the 2004 International Symposium on Safety Science and Technology, Shanghai, China, 25/10/04.

Safety analysis for large aircraft wing-fuselage joint structure with random uncertainty. / Huang, Cheng; Wang, Yanping; Yang, Zizheng et al.
Progress in Safety Science and Technology Volume 4: Proceedings of the 2004 International Symposium on Safety Science and Technology. ed. / W. Yajun; H. Ping; L. Shengcai. PART B. ed. 2004. p. 1794-1798 (Progress in Safety Science and Technology Volume 4:Proceedings of the 2004 International Symposium on Safety Science and Technology; No. PART B).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Safety analysis for large aircraft wing-fuselage joint structure with random uncertainty

AU - Huang, Cheng

AU - Wang, Yanping

AU - Yang, Zizheng

AU - Lu, Zhenzhou

PY - 2004

Y1 - 2004

N2 - Non-linear finite element (FE) methods and reliability techniques are used to determine the safety degree of the large aircraft wing-fuselage joint structure with random uncertainty. The randomness of the basic parameters, such as loadings, physical properties and geometrical parameters are considered in the safety analysis. For the given original basic parameters, the response of the stress-strain in the joint structure can be easily calculated by the standard finite element software, but it is very difficult to get the probability safety degree due to its implicit limit state equation. Two numerical algorithms, response surface method(RSM) and advanced mean value first order method(AMVFOM), are combined with the standard FE software for the reliability analysis of the joint structure. The advantages and disadvantages of these two numerical methods are illustrated by the analysis of the strength reliability, stiffness reliability and hybrid strength-stiffness reliability of the joint structure. The results show that the two numerical algorithms are not time consuming comparing with Monte Carlo Method, and the presented methods are acceptable compromise between the accuracy and the computational effort.

AB - Non-linear finite element (FE) methods and reliability techniques are used to determine the safety degree of the large aircraft wing-fuselage joint structure with random uncertainty. The randomness of the basic parameters, such as loadings, physical properties and geometrical parameters are considered in the safety analysis. For the given original basic parameters, the response of the stress-strain in the joint structure can be easily calculated by the standard finite element software, but it is very difficult to get the probability safety degree due to its implicit limit state equation. Two numerical algorithms, response surface method(RSM) and advanced mean value first order method(AMVFOM), are combined with the standard FE software for the reliability analysis of the joint structure. The advantages and disadvantages of these two numerical methods are illustrated by the analysis of the strength reliability, stiffness reliability and hybrid strength-stiffness reliability of the joint structure. The results show that the two numerical algorithms are not time consuming comparing with Monte Carlo Method, and the presented methods are acceptable compromise between the accuracy and the computational effort.

KW - Finite element

KW - Reliability

KW - Response surface method

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T3 - Progress in Safety Science and Technology Volume 4:Proceedings of the 2004 International Symposium on Safety Science and Technology

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EP - 1798

BT - Progress in Safety Science and Technology Volume 4

A2 - Yajun, W.

A2 - Ping, H.

A2 - Shengcai, L.

T2 - Progress in Safety Science and Technology Volume 4: Proceedings of the 2004 International Symposium on Safety Science and Technology

Y2 - 25 October 2004 through 28 October 2004

ER -

Huang C, Wang Y, Yang Z, Lu Z. Safety analysis for large aircraft wing-fuselage joint structure with random uncertainty. In Yajun W, Ping H, Shengcai L, editors, Progress in Safety Science and Technology Volume 4: Proceedings of the 2004 International Symposium on Safety Science and Technology. PART B ed. 2004. p. 1794-1798. (Progress in Safety Science and Technology Volume 4:Proceedings of the 2004 International Symposium on Safety Science and Technology; PART B).

Safety analysis for large aircraft wing-fuselage joint structure with random uncertainty

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Keywords

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