期刊论文

  1. Mengyu Chai*, Chuanjing Lai, Wei Xu, Yan Song, Zaoxiao Zhang, Quan Duan, Determination of fracture toughness of 2.25Cr1Mo0.25V steel based on acoustic emission technique, International Journal of Pressure Vessels and Piping 205 (2023) 104998.
  2. Chai M*, Liu P, He Y, et al, Machine learning-based approach for fatigue crack growth prediction using acoustic emission technique, Fatigue & Fracture of Engineering Materials & Structures (2023) 1-14.
  3. Chai M*, He Y, Li Y, Song Y, Zhang Z, Duan Q, Machine Learning-Based Framework for Predicting Creep Rupture Life of Modified 9Cr-1Mo Steel. Applied science 13 (2023) 4972.
  4. M. Chai*, X. Hou, Z. Zhang, and Q. Duan, Identification and prediction of fatigue crack growth under different stress ratios using acoustic emission data, International Journal of Fatigue 160 (2022) 106860.
  5. Chai, M*, Lai, C., Xu, W., Duan, Q., Zhang, Z., Song, Y, Characterization of Fatigue Crack Growth Based on Acoustic Emission Multi-Parameter Analysis, Materials 15 (2022) 6665.
  6. M. Chai*, Z. Gao, Y. Li, Z. Zhang, Q. Duan, and R. Chen, An approach for identifying corrosion damage from acoustic emission signals using ensemble empirical mode decomposition and linear discriminant analysis, Measurement Science and Technology 33 (2022) 065018.
  7. 赖传京,柴孟瑜*,段权,等.基于声发射监测的压力容器钢裂纹损伤评价系统.压力容器,202239( 6) : 75-83
  8. Yan Song, Mengyu Chai*, Junnan Lv, Zelin Han, Pan Liu, Haoqi Yan, and Zhendong Sha, Creep rupture behavior of 2.25Cr1Mo0.25V steel and weld for hydrogenation reactors under different stress levels, Reviews on Advanced Materials Science 61 (2022) 334-349.
  9. Y. Song, M. Chai*, Z. Han, and P. Liu, High-Temperature Tensile and Creep Behavior in a CrMoV Steel and Weld Metal, Materials 15 (2021) 109.
  10. Y. Song, M. Chai*, and Z. Han, Experimental investigation of fatigue crack growth behavior of the 2.25Cr1Mo0.25V steel welded joint used in hydrogenation reactors, Materials 14 (2021) 1159.
  11. Y. Song, M. Chai, W. Wu, Y. Liu, M. Qin, and G. Cheng, Experimental investigation of the effect of hydrogen on fracture toughness of 2.25 Cr1Mo0. 25V steel and welds after annealing, Materials 11 (2018) 499.
  12. Y. Song, M. Chai, B. Yang, Z. Han, S. Ai, Y. Liu, G. Cheng, and Y. Li, Investigation of the influence of pre-charged hydrogen on fracture toughness of as-received 2.25 Cr1Mo0. 25V steel and weld, Materials 11 (2018) 1068.
  13. M. Chai, J. Zhang, Z. Zhang, Q. Duan, and G. Cheng, Acoustic emission studies for characterization of fatigue crack growth in 316LN stainless steel and welds, Applied Acoustics 126 (2017) 101-113.
  14. M. Chai, Z. Zhang, and Q. Duan, A new qualitative acoustic emission parameter based on Shannon’s entropy for damage monitoring, Mechanical Systems and Signal Processing 100 (2018) 617-629.
  15. M. Chai, Z. Zhang, Q. Duan, and Y. Song, Assessment of fatigue crack growth in 316LN stainless steel based on acoustic emission entropy, International Journal of Fatigue 109 (2018) 145-156.
  16. M.Y. Chai, Q. Duan, D.D. Wang, and Z.X. Zhang, Acoustic emission behavior of 316LN stainless steel during oxide film formation in high temperature aqueous environment, Materials and Corrosion 67 (2016) 967-977.
  17. M. Chai, Q. Duan, X. Hou, Z. Zhang, and L. Li, Fracture toughness evaluation of 316LN stainless steel and weld using acoustic emission technique, Isij International 56 (2016), 875-882.
  18. M.-y. Chai, Q. Duan, W.-j. Bai, Z.-x. Zhang, and X.-m. Xie, Acoustic emission detection of 316L stainless steel welded joints during intergranular corrosion, International Journal of Minerals, Metallurgy, and Materials 22 (2015) 942-949.
  19. 柴孟瑜, 段权, 张早校. Q345R 疲劳裂纹扩展过程的声发射研究. 工程科学学报, 2015, 37(12): 1588-1593.
  20. 柴孟瑜, 段权, 张早校. 声发射技术在金属疲劳断裂研究中的应用. 化工机械. 2015, 42(6): 735-741.

学术报告

  1. Mengyu Chai*, Zheyu Gao, Zaoxiao Zhang, Quan Duan, An Approach for Identifying Corrosion Damage from Acoustic Emission Signals using EEMD and LDA, 2021 International Symposium on Structural Integrity, Oct 8-11, 2021 Hangzhou, China (Oral presentation)
  2. 柴孟瑜,基于声发射熵的压力容器用钢疲劳损伤评价与寿命预测研究,第十届全国压力容器学术会议,926-29日,杭州,中国 (Oral presentation)
  3. Mengyu Chai*, Shuai Tang, Zaoxiao Zhang, Quan Duan, Detection and quantification of fatigue crack growth under high-frequency cyclic loading using acoustic emission entropy, 2020 International Symposium on Structural Integrity, Oct 22-24, 2020 Suzhou, China (Oral presentation)
  4. M. Chai, Y. Song, Z. Zhang, Q. Duan, and G. Cheng, Effect of Hydrogen on Fracture Toughness Behavior of 2.25 Cr-1Mo-0.25 V Steel, 2018 Pressure Vessels and Piping Conference, July 15-20, 2018, Prague, Czech Republic (Oral presentation)
  5. 柴孟瑜,段权,张早校,声发射技术在化工设备损伤检测与可靠性评估中的研究与应用,2017中国化工学会年会,1014-15日,北京,中国 (Oral presentation)

会议论文

  1. M. Chai, M. Qin, Y. Zheng, X. Hou, Z. Zhang, G. Cheng, and Q. Duan, Acoustic Emission Detection during Welding Residual Stresses Release in 2.25Cr1Mo0.25V Steel Welds, Materials Today: Proceedings 5 (2018), 13759-13766.
  2. M. Chai, Y. Song, Z. Zhang, Q. Duan, and G. Cheng, Effect of Hydrogen on Fracture Toughness Behavior of 2.25 Cr-1Mo-0.25 V Steel, in: ASME 2018 Pressure Vessels and Piping Conference, 2018.
  3. M. Chai, W. Wu, Z. Zhang, G. Cheng, and Q. Duan, Acoustic Emission Entropy for Evaluation of Fracture Toughness of HSLA Steel Welded Joint, in: ASME 2017 Pressure Vessels and Piping Conference, 2017.
  4. M. Chai, J. Xiang, Z. Zhao, Z. Zhang, and Q. Duan, Fatigue Damage Evaluation of 2.25 Cr-1Mo-0.25 V Steel Using Acoustic Emission Entropy, in: World Conference on Acoustic Emission, Springer, 2017, pp. 165-175.
  5. W. Wu, Y. Song, M. Chai, Z. Zhang, and G. Cheng, Investigation of Fracture Toughness of Heat Affected Zone of 2.25 Cr-1Mo-0.25 V Steel Pressure Equipment, in: ASME 2017 Pressure Vessels and Piping Conference, 2017.