[1] GAO W K, DU X P, WANG Y, . Review of laser speckle target detection technology[J]. Chinese Optics, 13, 1182-1193(2020).

[2] WANG Y H, ZHANG Q, HU Y, . 3D small-field surface imaging based on microscopic fringe projection profilometry: a review[J]. Chinese Optics, 14, 447-457(2021).

[3] ZHU X, SHAO SH Y, SONG ZH J. A detection method based on line-structured light sensor for geometrical morphology of track slab[J]. Chinese Optics, 11, 841-850(2018).

[4] QIAO M X, PAN ZH W, HUANG SH H, . Investigation on digital image correlation measurement technique for high temperature deformation of tungsten materials in vacuum environment[J]. Journal of Experimental Mechanics, 35, 557-566(2020).

[5] MAO W G, WANG Y J, HUANG H Y, et al. In situ characterizations of mechanical behaviors of freestanding (Gd_0.9Yb_0.1)₂Zr₂O₇ coatings by bending tests under different temperatures based on digital image correlation[J]. Journal of the European Ceramic Society, 40, 491-502(2020).

[6] GRANT B M B, STONE H J, WITHERS P J, et al. High-temperature strain field measurement using digital image correlation[J]. The Journal of Strain Analysis for Engineering Design, 44, 263-271(2009).

[7] [7] HAMMER J T, SEIDT J D, GILAT A. Strain measurement at temperatures up to 800°C utilizing digital image crelation[M]JIN H, SCIAMMARELLA C, YOSHIDA S, et al. . Advancement of Optical Methods in Experimental Mechanics, Volume 3. Cham: Springer, 2014: 167170.

[8] GUO X, LIANG J, TANG ZH Z, et al. High-temperature digital image correlation method for full-field deformation measurement captured with filters at 2600°C using spraying to form speckle patterns[J]. Optical Engineering, 53, 063101(2014).

[9] SU Y Q, YAO X F, WANG SH, et al. Improvement on measurement accuracy of high-temperature DIC by grayscale-average technique[J]. Optics and Lasers in Engineering, 75, 10-16(2015).

[10] DUAN Q Y, GONG W R, GUO B Q, . Techniques of speckle fabrication and imgae processing for high temperature digital image correlation[J]. Journal of Tsinghua University (Science & Technology), 59, 425-431(2019).

[11] WANG H Q, ZHANG Q, GE P X, et al. Thermal radiation elimination method for high-temperature digital image correlation using polarization camera[J]. Measurement Science and Technology, 32, 065203(2021).

[12] VALERI G, KOOHBOR B, KIDANE A, et al. Determining the tensile response of materials at high temperature using DIC and the virtual fields method[J]. Optics and Lasers in Engineering, 91, 53-61(2017).

[13] HU Y, WANG Y H, BAO S Y, . Optimal imaging of digital image correlation speckle under high temperature[J]. China Optics, 11, 728-735(2018).

[14] LIU M, GUO J, HUI C Y, et al. Application of Digital Image Correlation (DIC) to the measurement of strain concentration of a PVA dual-crosslink hydrogel under large deformation[J]. Experimental Mechanics, 59, 1021-1032(2019).

[15] LYONS J S, LIU J, SUTTON M A. High-temperature deformation measurements using digital-image correlation[J]. Experimental Mechanics, 36, 64-70(1996).

[16] SU Y Q, YAO X F, WANG SH, et al. Refraction error correction for deformation measurement by digital image correlation at elevated temperature[J]. Optical Engineering, 56, 034106(2017).

[17] SHI J H, WANG Q, FENG Y Y. Camera calibration method based on 3D calibration plate[J]. Transducer and Microsystem Technologies, 40, 48-51(2021).

[18] ZHENG D, FENG P, LONG Z R, . Summary of camera calibration accuracy for multi-factor operating conditions[J]. Foreign Electronic Measurement Technology, 39, 109-116(2020).

[19] ZHI J H, DONG X M, KONG X W, . Analysis of external influence factors in camera calibration[J]. Journal of Applied Optics, 35, 286-291(2014).

[20] [20] VERBIEST F, PROESMANS M, VAN GOOL L. Modeling the effects of windshield refraction f camera calibration[C]. Proceedings of the 16th European Conference on Computer Vision. Glasgow: Springer, 2020: 397412.

[21] VALLÉE C, FORTUNÉ D, LERINTIU C. On the dual variable of the Cauchy stress tensor in isotropic finite hyperelasticity[J]. Comptes Rendus Mécanique, 336, 851-855(2008).