Ni-Lei Li scite author profile

Ni-Lei Li

4Publications

21Citation Statements Received

50Citation Statements Given

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Affiliations

State Intellectual Property Office, Fuzhou University

Publications

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Deformation Monitoring for Chinese Traditional Timber Buildings Using Fiber Bragg Grating Sensors

Jiang

et al. 2018

Sensors

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The Fiber Bragg Grating (FBG) sensing technique is suitable for a wide variety of measurements, including temperature, pressure, acceleration, liquid level, etc., and has been applied to many bridges and buildings in the past two decades. The fact that the FBG technique can only monitor and measure strain data for most cases when it is used for deformation measurements impedes application of the FBG sensing technique in civil infrastructures. This paper proposes FBG sensing-based deformation monitoring methods that are applicable to monitoring beam deflection, column inclination angle and mortise-tenon joint dislocation for Chinese traditional timber structures. On the basis of improved conjugated beam theory and geometrical trigonometric function relationship, the relationships between the FBG sensing strain values and the deflection of beam, inclination angle of column, as well as the amount of dislocation of mortise-tenon joint are deducted for Chinese traditional buildings. A series of experiments were conducted to verify the applicability and effectiveness of the proposed deformation monitoring methods. The results show that a good agreement is obtained between the values given by the methods proposed in this paper and other methods. This implies that the proposed deformation monitoring methods are applicable and effective in the health monitoring of Chinese traditional timber structures.

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Structural Health Monitoring System Based on FBG Sensing Technique for Chinese Ancient Timber Buildings

Jiang

Qiao

et al. 2019

Sensors

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Due to the long-term service, Chinese ancient timber buildings show varying degrees of wear. Thus, structural health monitoring (SHM) for these cultural and historical treasures is desperately needed to evaluate the service status. Although there are some FBG sensing-based SHM systems, they are not suitable for Chinese ancient timber buildings due to the differences in architectural types, structural loads, materials, and environment. Besides, a technical gap in Fiber Bragg grating (FBG) sensing-based column inclination monitoring exists. To overcome these weaknesses, this paper develops an FBG sensing-based structural health monitoring system for Chinese ancient Chuan-dou-type timber buildings that aims at monitoring structural deformation, i.e., beam deflection and column inclination, temperature, humidity, and fire around the building. An in-situ test and simulation analyses were conducted to verify the effectiveness of the developed SHM system. To validate the long-term-operation of the developed SHM system, monitoring data within 15 months were analyzed. The results show good agreement between the developed SHM system in this paper and other methods. In addition, the SHM system operated well in the first year after its deployment. This implies that the developed SHM system is applicable and effective in the health state monitoring of Chinese ancient Chuan-dou-type timber buildings, laying a foundation for damage prognosis of such types of timber buildings.

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Dual-indicator prediction model for the safety of Chinese ancient wooden structures subjected to bioerosion

Qiao

Jiang

Tang

et al. 2021

Journal of Building Engineering

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Damage prognosis of China ancient wooden buildings based on structural health monitoring system

Jiang

et al. 2018

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Ni-Lei Li

Deformation Monitoring for Chinese Traditional Timber Buildings Using Fiber Bragg Grating Sensors

Structural Health Monitoring System Based on FBG Sensing Technique for Chinese Ancient Timber Buildings

Dual-indicator prediction model for the safety of Chinese ancient wooden structures subjected to bioerosion

Damage prognosis of China ancient wooden buildings based on structural health monitoring system

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