[1] Chuang Z J, Li C Z, Liu S W et al. Numerical analysis of blade icing influence on the dynamic response of an integrated offshore wind turbine[J]. Ocean Engineering, 257, 111593(2022).

[2] Zhang Y, Deng X, Zhang F F et al. Application and challenges of carbon fiber in marine structures and equipment[J]. Mechanics in Engineering, 44, 249-257(2022).

[3] Bergström L, Kautsky L, Malm T et al. Effects of offshore wind farms on marine wildlife: a generalized impact assessment[J]. Environmental Research Letters, 9, 034012(2014).

[4] Stetco A, Dinmohammadi F, Zhao X Y et al. Machine learning methods for wind turbine condition monitoring: a review[J]. Renewable Energy, 133, 620-635(2019).

[5] Dulieu-Barton J M, Stanley P. Development and applications of thermoelastic stress analysis[J]. The Journal of Strain Analysis for Engineering Design, 33, 93-104(1998).

[6] Zhang P, Tong Y L, Ouyang G Y et al. Detecting thermal flaw inner cylinder head based on infrared thermograph technology[J]. Laser & Optoelectronics Progress, 47, 111103(2010).

[7] Zhu D R, Yang S J, Wang F B et al. Texture characteristics of polarized thermal images on metal surfaces in fatigue damage process[J]. Laser & Optoelectronics Progress, 59, 0424001(2022).

[8] Li Q L, Wang X X, Yang F B. Multiscale image fusion-based thermal fatigue damage detection method for cylinder head inner wall[J]. Laser & Optoelectronics Progress, 60, 0612002(2023).

[9] Wang J Y, Duan Z X. Infrared thermal imaging detection of surface cracks in external insulation layer of building external wall[J]. Laser & Optoelectronics Progress, 59, 2204001(2022).

[10] Dulieu-Barton J M, Emery T R, Quinn S et al. A temperature correction methodology for quantitative thermoelastic stress analysis and damage assessment[J]. Measurement Science and Technology, 17, 1627-1637(2006).

[11] Jiménez-Fortunato I, Bull D J, Thomsen O T et al. On the source of the thermoelastic response from orthotropic fibre reinforced composite laminates[J]. Composites Part A: Applied Science and Manufacturing, 149, 106515(2021).

[12] Krstulovic-Opara L, Klarin B, Neves P et al. Thermal imaging and Thermoelastic Stress Analysis of impact damage of composite materials[J]. Engineering Failure Analysis, 18, 713-719(2011).

[13] Li Y S, Wu J, Wang W B et al. Measuring stress distributions of composite joints by lock-In infrared thermography technique[J]. Journal of Ship Mechanics, 19, 1097-1115(2015).

[14] Lei Q, Li X, Wang Y H. Research on detection method of metal structural stress based on eddy current thermography[J]. Machine Design & Research, 33, 103-107(2017).

[15] Thomson W. On the dynamical theory of heat[J]. Transactions of the Royal Society of Edinburgh, 261-283(1853).

[16] Wang W J, Dulieu-Barton J M, Li Q. Assessment of non-adiabatic behaviour in thermoelastic stress analysis of small scale components[J]. Experimental Mechanics, 50, 449-461(2010).

[17] Greene R J, Patterson E A, Rowlands R E. Thermoelastic stress analysis[M]. Sharpe W N. Springer handbook of experimental solid mechanics. Springer handbooks, 743-768(2008).

[18] Costa A, Salerno A. Investigation on the thermoelastic constant of carbon fibre composites[J]. Experimental Mechanics, 53, 1597-1605(2013).

[19] Bank L C, Arias F R. Assessment of present/future decommissioned wind blade fiber-reinforced composite material in the United States[J]. Independent Study, Dept. of Civil Engineering(2016).

[22] Yang B, Liaw P K, Wang H et al. Thermographic investigation of the fatigue behavior of reactor pressure vessel steels[J]. Materials Science and Engineering: A, 314, 131-139(2001).

[23] Li Y. Natural vibration characteristic analysis of triple-piles based offshore wind power structure[D](2013).