[3] ZHAO Q, ZHENG X, LIU C J, et al. Corrosion behavior of MgO-C ladle refractory by molten slag[J]. Steel Research International, 2021, 92(4): 2000497.
[4] LIU Z Y, YUAN L, JIN E D, et al. Wetting, spreading and corrosion behavior of molten slag on dense MgO and MgO-C refractory[J]. Ceramics International, 2019, 45(1): 718-724.
[7] PENG W D, CHEN Z, YAN W, et al. Advanced lightweight periclase-magnesium aluminate spinel refractories with high mechanical properties and high corrosion resistance[J]. Construction and Building Materials, 2021, 291: 123388.
[8] JIAO K X, FAN X Y, ZHANG J L, et al. Corrosion behavior of alumina-carbon composite brick in typical blast furnace slag and iron[J]. Ceramics International, 2018, 44(16): 19981-19988.
[9] REN X M, MA B Y, LI S M, et al. Comparison study of slag corrosion resistance of MgO-MgAl2O4, MgO-CaO and MgO-C refractories under electromagnetic field[J]. Journal of Iron and Steel Research International, 2021, 28(1): 38-45.
[11] PAN B, QIAN K M, XIE H M, et al. Two-dimensional digital image correlation for in-plane displacement and strain measurement: a review[J]. Measurement Science and Technology, 2009, 20(6): 062001.
[12] CHEN X, XU N, YANG L X, et al. High temperature displacement and strain measurement using a monochromatic light illuminated stereo digital image correlation system[J]. Measurement Science and Technology, 2012, 23(12): 125603.
[13] BAQERSAD J, POOZESH P, NIEZRECKI C, et al. Photogrammetry and optical methods in structural dynamics: a review[J]. Mechanical Systems and Signal Processing, 2017, 86: 17-34.
[14] PARK J, YOON S, KWON T H, et al. Assessment of speckle-pattern quality in digital image correlation based on gray intensity and speckle morphology[J]. Optics and Lasers in Engineering, 2017, 91: 62-72.
[15] WANG W, XU C H, JIN H, et al. Measurement of high temperature full-field strain up to 2 000 ℃ using digital image correlation[J]. Measurement Science and Technology, 2017, 28(3): 035007.
[16] SCHREIER H W, BRAASCH J R, SUTTON M A. Systematic errors in digital image correlation caused by intensity interpolation[J]. Optical Engineering, 2000, 39: 2915-2921.
[17] GAO Y, CHENG T, SU Y, et al. High-efficiency and high-accuracy digital image correlation for three-dimensional measurement[J]. Optics and Lasers in Engineering, 2015, 65: 73-80.
[18] REAGAN D, SABATO A, NIEZRECKI C. Feasibility of using digital image correlation for unmanned aerial vehicle structural health monitoring of bridges[J]. Structural Health Monitoring, 2018, 17(5): 1056-1072.
[19] SONG J L, YANG J H, LIU F J, et al. High temperature strain measurement method by combining digital image correlation of laser speckle and improved RANSAC smoothing algorithm[J]. Optics and Lasers in Engineering, 2018, 111: 8-18.
[20] ZHENG Q, MASHIWA N, FURUSHIMA T. Evaluation of large plastic deformation for metals by a non-contacting technique using digital image correlation with laser speckles[J]. Materials & Design, 2020, 191: 108626.
[21] BING P. Digital image correlation for surface deformation measurement: historical developments, recent advances and future goals[J]. Measurement Science and Technology, 2018, 29(8): 082001.
[22] WU D, LIN L, REN H, et al. High-temperature deformation measurement of the heated front surface of hypersonic aircraft component at 1 200 ℃ using digital image correlation[J]. Optics and Lasers in Engineering, 2019, 122: 184-194.
[23] GUO X, LIANG J, TANG Z, et al. High-temperature digital image correlation method for full-field deformation measurement captured with filters at 2 600 ℃ using spraying to form speckle patterns[J]. Optical Engineering, 2014, 53(6): 063101.
[24] POIRIER J, BLOND E, DE BILBAO E, et al. New advances in the laboratory characterization of refractories: testing and modelling[J]. Metallurgical Research & Technology, 2017, 114(6): 610.
[25] JIA X D, TIAN L, MAO S, et al. Slag erosion-resistant coating for periclase-magnesia-aluminum spinel brick[J]. Ceramics International, 2021, 47(22): 31407-31412.
[27] LI S H, HUANG A, GU H Z, et al. Visual measurement and characterisation of quasi-volcanic corrosion at alumina ceramic-oxides melt-air interface[J]. Journal of the European Ceramic Society, 2021, 41(16): 400-410.