FBG Monitoring Information-Motivated Anti-Fatigue Performance Analysis of CFRP Composites Based on Non-Destructive Tests

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Bibliografische gegevens
Gepubliceerd in:	Polymers vol. 17, no. 13 (2025), p. 1817-1837
Hoofdauteur:	Fu-Kang, Shen
Andere auteurs:	Si-Kai, Wang, Jia-Yi, Zhang, Zhi-Gang, Xia, Bao-Rui, Peng, Sasy Chan Yung William, Xiang Ping, Hua-Ping, Wang
Gepubliceerd in:	MDPI AG
Onderwerpen:	Load Finite element method Accuracy Bragg gratings Nondestructive testing Silicones Carbon fiber reinforced plastics Data processing Data analysis Plates Life prediction Fiber composites Monitoring Fatigue strength Statistical analysis Composite materials Thermography Corrosion Fiber reinforced polymers Temperature effects Sensors Optical fibers Fatigue tests Algorithms Fatigue life Carbon fiber reinforcement
Online toegang:	Citation/Abstract Full Text + Graphics Full Text - PDF
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022			\|a 2073-4360
024	7		\|a 10.3390/polym17131817 \|2 doi
035			\|a 3229154814
045	2		\|b d20250101 \|b d20251231
084			\|a 231552 \|2 nlm
100	1		\|a Fu-Kang, Shen \|u School of Civil Engineering and Mechanics, Lanzhou University, Lanzhou 730000, China; shenfk19@lzu.edu.cn (F.-K.S.); wangsk19@lzu.edu.cn (S.-K.W.); xiazhg21@lzu.edu.cn (Z.-G.X.)
245	1		\|a FBG Monitoring Information-Motivated Anti-Fatigue Performance Analysis of CFRP Composites Based on Non-Destructive Tests
260			\|b MDPI AG \|c 2025
513			\|a Journal Article
520	3		\|a The wide-spread application of carbon fiber-reinforced polymer (CFRP) composites in industrial fields has led to high demand for developing a rapid detection method for assessing the structural performance of CFRP composites in operation based on optical fiber sensing technology. Therefore, the effectiveness and reliability of evaluating the fatigue resistance of CFRP plates based on fiber Bragg grating (FBG) monitoring information were explored. The strain response of CFRP plates at key positions under constant amplitude fatigue load was monitored by bare FBGs in series and packaged quasi-distributed FBGs in series. The structural performance and fatigue resistance characteristics of CFRP plates were evaluated by statistical analysis and fatigue life prediction theory. The validity and accuracy of the test and analysis results were demonstrated by finite element modeling analysis. Compared with the traditional methods that evaluate the structural fatigue performance based on mass destructive experiments, this method significantly improves the detection efficiency and realizes the non-destructive and rapid online evaluation of structural service performance. Research shows that the designed FBG sensors can effectively monitor the strain response of CFRP plate under fatigue load, and the correlated fatigue algorithm can provide feasible and reliable technical approaches for online detection and evaluation on the structural performance of CFRP components.
653			\|a Load
653			\|a Finite element method
653			\|a Accuracy
653			\|a Bragg gratings
653			\|a Nondestructive testing
653			\|a Silicones
653			\|a Carbon fiber reinforced plastics
653			\|a Data processing
653			\|a Data analysis
653			\|a Plates
653			\|a Life prediction
653			\|a Fiber composites
653			\|a Monitoring
653			\|a Fatigue strength
653			\|a Statistical analysis
653			\|a Composite materials
653			\|a Thermography
653			\|a Corrosion
653			\|a Fiber reinforced polymers
653			\|a Temperature effects
653			\|a Sensors
653			\|a Optical fibers
653			\|a Fatigue tests
653			\|a Algorithms
653			\|a Fatigue life
653			\|a Carbon fiber reinforcement
700	1		\|a Si-Kai, Wang \|u School of Civil Engineering and Mechanics, Lanzhou University, Lanzhou 730000, China; shenfk19@lzu.edu.cn (F.-K.S.); wangsk19@lzu.edu.cn (S.-K.W.); xiazhg21@lzu.edu.cn (Z.-G.X.)
700	1		\|a Jia-Yi, Zhang \|u School of Civil Engineering and Mechanics, Lanzhou University, Lanzhou 730000, China; shenfk19@lzu.edu.cn (F.-K.S.); wangsk19@lzu.edu.cn (S.-K.W.); xiazhg21@lzu.edu.cn (Z.-G.X.)
700	1		\|a Zhi-Gang, Xia \|u School of Civil Engineering and Mechanics, Lanzhou University, Lanzhou 730000, China; shenfk19@lzu.edu.cn (F.-K.S.); wangsk19@lzu.edu.cn (S.-K.W.); xiazhg21@lzu.edu.cn (Z.-G.X.)
700	1		\|a Bao-Rui, Peng \|u School of Civil Engineering and Mechanics, Lanzhou University, Lanzhou 730000, China; shenfk19@lzu.edu.cn (F.-K.S.); wangsk19@lzu.edu.cn (S.-K.W.); xiazhg21@lzu.edu.cn (Z.-G.X.)
700	1		\|a Sasy Chan Yung William \|u College of Architectural Science and Engineering, Yangzhou University, Yangzhou 225127, China; sasychanwill@yahoo.com
700	1		\|a Xiang Ping \|u School of Civil Engineering, Central South University, Changsha 410075, China; pxiang2-c@my.cityu.edu.hk
700	1		\|a Hua-Ping, Wang \|u School of Civil Engineering and Mechanics, Lanzhou University, Lanzhou 730000, China; shenfk19@lzu.edu.cn (F.-K.S.); wangsk19@lzu.edu.cn (S.-K.W.); xiazhg21@lzu.edu.cn (Z.-G.X.)
773	0		\|t Polymers \|g vol. 17, no. 13 (2025), p. 1817-1837
786	0		\|d ProQuest \|t Materials Science Database
856	4	1	\|3 Citation/Abstract \|u https://www.proquest.com/docview/3229154814/abstract/embedded/6A8EOT78XXH2IG52?source=fedsrch
856	4	0	\|3 Full Text + Graphics \|u https://www.proquest.com/docview/3229154814/fulltextwithgraphics/embedded/6A8EOT78XXH2IG52?source=fedsrch
856	4	0	\|3 Full Text - PDF \|u https://www.proquest.com/docview/3229154814/fulltextPDF/embedded/6A8EOT78XXH2IG52?source=fedsrch