Qi Chang scite author profile

Qi Chang

3Publications

17Citation Statements Received

31Citation Statements Given

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Affiliations

Xi'an University of Technology, Nanjing University of Aeronautics and Astronautics, New York University

Publications

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A research on fatigue crack growth monitoring based on multi-sensor and data fusion

Chang

Weixi

Liu

et al. 2019

Structural Health Monitoring

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Fatigue crack propagation is one of the main problems in structural health monitoring. For the safety and operability of the metal structure, it is necessary to monitor the fatigue crack growth process of the structure in real time. In order to more accurately monitor the expansion of fatigue cracks, two kinds of sensors are used in this article: strain gauges and piezoelectric transducers. A model-based inverse finite element model algorithm is proposed to perform pattern recognition of fatigue crack length, and the fatigue crack monitoring experiment is carried out to verify the algorithm. The strain spectra of the specimen under cyclic load in the simulation and experimental crack propagation are obtained, respectively. The active lamb wave technique is also used to monitor the crack propagation. The relationship between the crack length and the lamb wave characteristic parameter is established. In order to improve the recognition accuracy of the crack propagation mode, the random forest and inverse finite element model algorithms are used to identify the crack length, and the Dempster–Shafer evidence theory is used as data fusion to integrate the conclusion of the two algorithms to make a more accountable and correct judge of the crack length. An experiment has been conducted to demonstrate the effectiveness of the method.

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Soil Deformations During Casing Jacking and Extraction of Expanded-Shoe Piles, Using Model Tests

2016

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Non-sticky and Non-slippery Biomimetic Patterned Surfaces

Dai

Chang

2020

J Bionic Eng

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Qi Chang

A research on fatigue crack growth monitoring based on multi-sensor and data fusion

Soil Deformations During Casing Jacking and Extraction of Expanded-Shoe Piles, Using Model Tests

Non-sticky and Non-slippery Biomimetic Patterned Surfaces

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