Force Feedback Method for Statically Indeterminate Steel Structure Construction Based on Staged Temperature Measurement

Force Feedback Method for Statically Indeterminate Steel Structure Construction Based on Staged Temperature Measurement

Structural design usually adopts uniform temperature action. However, during the actual construction of the structure, the temperature field acting on the structure is inhomogeneous. Therefore, the simulation of the construction of statically indeterminate steel structures considering only the unifo...

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Bibliographic Details
Main Authors: Wei Lu, Xianwei Fang, Liming Liu, Chunfeng Ao, Weihua Hu, Jun Teng, Zhongcheng Huo
Format: Article
Language:English
Published: MDPI AG 2024-12-01
Series:Sensors
Subjects:
statically indeterminate structure
thermal effect
construction monitoring
construction force feedback
construction safety
Online Access:https://www.mdpi.com/1424-8220/24/24/8073
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Summary:Structural design usually adopts uniform temperature action. However, during the actual construction of the structure, the temperature field acting on the structure is inhomogeneous. Therefore, the simulation of the construction of statically indeterminate steel structures considering only the uniform temperature field cannot truly reflect the temperature action after structural molding and the evolution of the stress performance of the temporary stress system of structural construction. This paper proposes a force feedback method for the construction of statically indeterminate steel structures based on staged temperature measurements. In this method, the construction sequence and the measured temperature are taken into account, and the structural response under the action of temperature is obtained by using the first processing method in the matrix displacement method and the deformation coordination formula to obtain the deformation and stress values of the structure. The application results show that the structural forces calculated by the method proposed in this paper are closer to the measured data in the field, and the error is reduced by 10~40%. This paper provides a reference for the calculation of construction forces in statically indeterminate steel structures considering the effect of temperature inhomogeneity and provides a basis for construction safety assessment and schedule management.
ISSN:1424-8220

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