Issue 53

D. Wang et alii, Frattura ed Integrità Strutturale, 53 (2020) 236-251; DOI: 10.3221/IGF-ESIS.53.20 250 A CKNOWLEDGEMENTS his project was supported by the National Natural Science Foundation of China (Grant No. 51778250), The Education and scientific research project for young and middle-aged teachers in Fujian Province (Grant No. JAT191400). R EFERENCES [1] Yang, X.J., Yao, C.J., Yuan, X.J., and Long, X.H. (2016). Material Damage Detection Technology Based on Acoustic Emission, Beijing: Beijing University of Aeronautics and Astronautics Press. [2] Ji, H.G. (2004). Research and Application of Acoustic Emission Performance of Concrete Materials, Beijing: Coal Industry Press. [3] Yuan, Z.M., Ma, Y.K., and He, Z.Y. (1985). Acoustic Emission Technology and Its Application, Beijing: Mechanical Industry Press. [4] Chen, X.J., Cai, Y.Q., Cui, T.L. (2018). Research on acoustic emission characteristics in the whole process of pressure test of concrete, Highway and Automotive Technology, (1), pp. 134-138. DOI: 10.3969/j.issn.1671-2668.2018.01.034 [5] Kim, V.T., and Nele, D.B. (2012). Acoustic emission analysis for the quantification of autonomous crack healing in concrete, Construction and Building Materials, 28(1), pp. 333-341. DOI: 10.1016/j.conbuildmat.2011.08.079 [6] Zhang, R., Xu, G., and Jiang, Y., (2017). Acoustic emission monitoring of rusty state of reinforced concrete structures, Concrete, (1), pp. 34-43. [7] Patil, S., Karkare, B., and Goyal, S. (2014). Acoustic emission vis-A-vis electrochemical techniques for corrosion monitoring concrete element, Construction and Building Materials, 68, pp. 326-332. DOI: 10.1016/j.conbuildmat.2014.06.068 [8] Calabrese, L., Campanella, G., Proverbio, E. (2012). Noise removal by cluster analysis after long time AE corrosion monitoring of steel Reinforcement in concrete, Construction and Building Materials, 34, pp. 362-371. DOI: 10.1016/j.conbuildmat.2012.02.046 [9] Fan, Y.H. (2017). Research on bending damage of concrete specimens based on acoustic emission technology, Beijing Jiaotong University. [10] Zhang, S., and Wu, C. (2017). Analysis of frequency band energy characteristics of emission signals of prestressed reinforced concrete beam damage process, Journal of Anhui Jianke University, 25(4), pp. 9-13. DOI: 10.11921/j.issn.2095-8382.20170403 [11] Zitto, M.E., Piotrkowski, R., Gallego, A., Sagasta, F., and Benavent-Climent, A. (2015). Damage assessed by wavelet scale bands and b-value in dynamical tests of a reinforced concrete slab monitored with acoustic emission, Mechanical Systems and Signal Processing, 60, pp. 75-89. DOI: 10.1016/j.ymssp.2015.02.006 [12] Rao, T.E., Krishna, G.R., Kumar, M.V. (2019). Investigation of microstructure and mechanical properties of MIG welded mild steel plates, Annales de Chimie - Science des Matériaux, 43(4), pp. 257-263. DOI: 10.18280/acsm.430409. [13] Men, J.J., Zhao, Q., Zhu, L., and Wang, X.D. (2017). Moment-tensor-based acoustic emission detection method for reinforced concrete structure, Journal of Prevention and Mitigation Engineering, 37(5), pp. 822-841. DOI: 10.13409/j.cnki.jdpme.2017.05.019 [14] Peng, G.P., Zhang, Z.D., and Lu, C. (2018). Characterization and quantitative evaluation of acoustic emission characteristic parameters of Q345R steel during tensile damage, Pilot Research, 40(1), pp. 50-54. DOI: 10.11973/wsjc201801012 [15] Long, X.J., Li, Q.F., He, C.H., Wu, Q., Chen, G., and Lu, C. (2017). Acoustic emission monitoring and evaluation of steel damage at different tensile rates, Journal of Vibration and Shock, 36(7), pp. 219-225. [16] Song, J.B., Song, R., Xiong, Z. (2018). Acoustic radiation features and structural-acoustic sensitivity of channel beam, Traitement du Signal, 35(1), pp. 35-45. DOI: 10.3166/TS.35.35-45. [17] Bhuiyan, M.Y., Giurgiutiu, V. (2018). The signatures of acoustic emission waveforms from fatigue crack advancing in thin metallic plates, Smart Materials and Structures, 27(1), 015019. DOI: 10.1088/1361-665X/aa9bc2. [18] D’Angela , D., Ercolino, M., Bellini, C., Di Cocco, V., Iacoviello, F. (2020). Characterisation of the damaging micromechanisms in a pearlitic ductile cast iron and damage assessment by acoustic emission testing, Fatigue & Fracture of Engineering Materials & Structures. DOI: 10.1111/ffe.13214. T