An automatic finite element modelling for deformation analysis of composite structures

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OriginalspracheEnglisch
Seiten (von - bis)434-438
Seitenumfang5
FachzeitschriftComposite Structures
Jahrgang212
Frühes Online-Datum11 Jan. 2019
PublikationsstatusVeröffentlicht - 15 März 2019

Abstract

Terrestrial laser scanning is extensively adopted in the area of high-precision monitoring and three-dimensional measurement. Architectural structures today are increasingly complex and health monitoring plays an important role in guaranteeing their safety. Therefore, how reliability deformation monitoring can be improved is one of the key problems in the field of engineering. This paper combines the three-dimensional laser scanning technology and finite element method (FEM) to investigate the deformation mechanism of arched structures. Within this paper, we simulated arched structures using the FEM, which is consistent with the result of terrestrial laser scanner (TLS) measurement. We aimed at constructing an intelligent and efficient FEM model which can be extensively applied in the monitoring of many constructs, such as bridges and ancient architecture. The focus in this research lies mainly on deformation analysis, which is based on FEM model simulation with the calibration of TLS measurement.

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An automatic finite element modelling for deformation analysis of composite structures. / Yang, Hao; Xu, Xiangyang; Neumann, Ingo.
in: Composite Structures, Jahrgang 212, 15.03.2019, S. 434-438.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Yang H, Xu X, Neumann I. An automatic finite element modelling for deformation analysis of composite structures. Composite Structures. 2019 Mär 15;212:434-438. Epub 2019 Jan 11. doi: 10.1016/j.compstruct.2019.01.047
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abstract = "Terrestrial laser scanning is extensively adopted in the area of high-precision monitoring and three-dimensional measurement. Architectural structures today are increasingly complex and health monitoring plays an important role in guaranteeing their safety. Therefore, how reliability deformation monitoring can be improved is one of the key problems in the field of engineering. This paper combines the three-dimensional laser scanning technology and finite element method (FEM) to investigate the deformation mechanism of arched structures. Within this paper, we simulated arched structures using the FEM, which is consistent with the result of terrestrial laser scanner (TLS) measurement. We aimed at constructing an intelligent and efficient FEM model which can be extensively applied in the monitoring of many constructs, such as bridges and ancient architecture. The focus in this research lies mainly on deformation analysis, which is based on FEM model simulation with the calibration of TLS measurement.",
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AU - Xu, Xiangyang

AU - Neumann, Ingo

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AB - Terrestrial laser scanning is extensively adopted in the area of high-precision monitoring and three-dimensional measurement. Architectural structures today are increasingly complex and health monitoring plays an important role in guaranteeing their safety. Therefore, how reliability deformation monitoring can be improved is one of the key problems in the field of engineering. This paper combines the three-dimensional laser scanning technology and finite element method (FEM) to investigate the deformation mechanism of arched structures. Within this paper, we simulated arched structures using the FEM, which is consistent with the result of terrestrial laser scanner (TLS) measurement. We aimed at constructing an intelligent and efficient FEM model which can be extensively applied in the monitoring of many constructs, such as bridges and ancient architecture. The focus in this research lies mainly on deformation analysis, which is based on FEM model simulation with the calibration of TLS measurement.

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KW - Displacement

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