Lightweight and conformal acousto-ultrasonic sensing network for multi-scale structural health monitoring: A review

Yehai Li , Shifeng Guo , Zhongqing Su , Keqin Ding , Xian Jun Loh

FlexMat ›› 2025, Vol. 2 ›› Issue (1) : 4 -29.

PDF
FlexMat ›› 2025, Vol. 2 ›› Issue (1) : 4 -29. DOI: 10.1002/flm2.35
REVIEW

Lightweight and conformal acousto-ultrasonic sensing network for multi-scale structural health monitoring: A review

Author information +
History +
PDF

Abstract

Structural health monitoring (SHM) has been increasingly investigated for decades. Different physical principles have been developed for damage identification, such as electronics, mechanics, magnetics, etc., with different coverage (i.e., global, large-area, and local monitoring) and sensitivity. Mechanical acousto-ultrasonic-based methods have formed a big family in SHM technologies. Multiple wave/resonance modes have been utilized for versatile SHM tasks. The permanently integrated sensing networks play a significant role in achieving a cost-effective and reliable SHM system, with major concerns including weight increase for large-scale deployment and conformity for complex geometry structures. In this review, typical acousto-ultrasonic sensors made of different material systems are discussed, along with advantages and limitations. Moreover, advanced network installation methods have been introduced, including surface-mounting with pre-integrated networks on substrates and in situ printing, and embedding with composite layup and metal additive manufacturing. Sensor versatility and usage in multi-scale SHM techniques are then highlighted. Different wave/resonance modes are transmitted and received with corresponding elements and network designs. In conclusion, this systematic review mainly covers a collection of acousto-ultrasonic sensors, two modalities of network installation, and their employment with various SHM methods, hopefully providing a useful guide to building lightweight and conformal networks with passive or active-passive sensors, and developing complete and reliable SHM strategies by integrating different damage identification methods on multiple scales.

Keywords

acousto-ultrasonic / conformal / installation / lightweight / sensing networks / structural health monitoring

Cite this article

Download citation ▾
Yehai Li, Shifeng Guo, Zhongqing Su, Keqin Ding, Xian Jun Loh. Lightweight and conformal acousto-ultrasonic sensing network for multi-scale structural health monitoring: A review. FlexMat, 2025, 2(1): 4-29 DOI:10.1002/flm2.35

登录浏览全文

4963

注册一个新账户 忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within
[1]

W. Ostachowicz, A. Güemes, New Trends in Structural Health Monitoring, Springer, Berlin2016.
[2]

P. Cawley, Struct. Health Monit. 2018, 17, 1225.
[3]

A. Güemes, A. Fernandez-Lopez, A. R. Pozo, J. Sierra-Pérez, J. Compos. Sci. 2020, 4, 13.
[4]

W. Fan, P. Qiao, Struct. Health Monit. 2011, 10, 83.
[5]

W. Xu, M. Ji, Y. Xi, H. Xu, M. Cao, Z. Su, W. Ostachowicz, Mech. Syst. Signal Process. 2023, 200, 110570.
[6]

Y. Y. Li, Mech. Syst. Signal Process. 2010, 24, 653.
[7]

Y. Sun, W. Wang, B. Li, M. Liu, Appl. Math. Mech. 2015, 36, 465.
[8]

D. Roach, Smart Struct. Syst. 2009, 5, 317.
[9]

X. Sun, A. J. Croxford, B. W. Drinkwater, Struct. Health Monit. 2023, 22, 3451.
[10]

H. Hu, X. Zhu, C. Wang, L. Zhang, X. Li, S. Lee, Z. Huang, R. Chen, Z. Chen, C. Wang, Y. Gu, Y. Chen, Y. Lei, T. Zhang, N. Kim, Y. Guo, Y. Teng, W. Zhou, Y. Li, A. Nomoto, S. Sternini, Q. Zhou, M. Pharr, F. L. di Scalea, S. Xu, Sci. Adv. 2018, 4, eaar3979.
[11]

Y. Li, Z. Yao, C. Jiang, Z. Zhang, W. Feng, Z. Su, S. Guo, Mech. Syst. Signal Process. 2024, 208, 110999.
[12]

V. Zilberstein, D. Schlicker, K. Walrath, V. Weiss, N. Goldfine, Int. J. Fatigue 2001, 23, 477.
[13]

S. Heinlein, S. Mariani, J. Milewczyk, T. Vogt, P. Cawley, NDT&E Int. 2022, 132, 102713.
[14]

Q. Liu, Y. Li, R. Guan, J. Yan, M. Liu, G. Luo, Z. Su, X. Qing, K. Wang, Struct. Health Monit. 2023, 22, 2641.
[15]

S. Park, C. B. Yun, D. J. Inman, Fatigue Fract. Eng. Mater. Struct. 2008, 31, 714.
[16]

C. Griffin, V. Giurgiutiu, Sensors 2023, 23, 7103.
[17]

Z. Su, L. Ye, Identification of Damage Using Lamb Waves: From Fundamentals to Applications, Springer Science & Business Media, London2009.
[18]

D. W. Greve, P. Zheng, I. J. Oppenheim, Smart Mater. Struct. 2008, 17, 035029.
[19]

J. L. Rose, Ultrasonic Guided Waves in Solid Media, Cambridge University Press, Cambridge2014.
[20]

K. J. Loh, T.-C. Hou, J. P. Lynch, N. A. Kotov, J. Nondestr. Eval. 2009, 28, 9.
[21]

T. N. Tallman, S. Gungor, K. W. Wang, C. E. Bakis, Struct. Health Monit. 2014, 14, 100.
[22]

A. Naghashpour, S. Van Hoa, Struct. Health Monit. 2015, 14, 35.
[23]

C. Kralovec, M. Schagerl, Sensors 2020, 20, 826.
[24]

D. Wang, J. He, B. Dong, X. Liu, W. Zhang, Math. Probl. Eng. 2016, 2016, 3734258.
[25]

M. He, K. R. Ramakrishnan, Y. Wang, Z. Zhang, J. Fu, Mech. Syst. Signal Process. 2022, 167, 108577.
[26]

D. M. Steinweg, M. Hornung, in Proc. 32nd Congr. Int. Council Aeronaut. Sci. (ICAS 2021), Shanghai, China 2021, pp. 6–10.
[27]

T. Dong, N. H. Kim, Aerospace 2018, 5, 87.
[28]

W. Tao, Y. Kang, N. Li, H. K. Chai, Y. Yang, IEEE Trans. Instrum. Meas. 2023, 72, 1.
[29]

S. Chen, J. Wang, C. Zhang, M. Li, N. Li, H. Wu, Y. Liu, W. Peng, Y. Song, Sensors 2023, 23, 1877.
[30]

Z. Zeng, M. Liu, H. Xu, Y. Liao, F. Duan, L.-M. Zhou, H. Jin, Z. Zhang, Z. Su, Carbon 2017, 121, 490.
[31]

Y. Ren, J. Tao, Z. Xue, Sensors 2020, 20, 4344.
[32]

Y. Yang, H. Tian, Y.-F. Wang, Y. Shu, C.-J. Zhou, H. Sun, C.-H. Zhang, H. Chen, T.-L. Ren, Sensors 2013, 13, 9624.
[33]

T. Liu, C. Pei, R. Cai, Y. Li, Z. Chen, Sens. Actuators, A 2020, 314, 112213.
[34]

W. Deng, Y. Zhou, A. Libanori, G. Chen, W. Yang, J. Chen, Chem. Soc. Rev. 2022, 51, 3380.
[35]

C. Fei, C. T. Chiu, X. Chen, Z. Chen, J. Ma, B. Zhu, K. K. Shung, Q. Zhou, Sci. Rep. 2016, 6, 28360.
[36]

A. Rossi, Y. Zeng, M. Rahimi, T. Son, M. J. Heiferman, C. Gong, X. Sun, M. Soleimani, A. R. Djalilian, M. S. Humayun, Q. Zhou, X. Yao, Biosensors 2024, 14, 127.
[37]

V. Giurgiutiu, Structural Health Monitoring with Piezoelectric Wafer Active Sensors, 2nd ed., Academic Press, Oxford2014.
[38]

A. Safari, Q. Zhou, Y. Zeng, J. D. Leber, Jpn. J. Appl. Phys. 2023, 62, SJ0801.
[39]

Y. Quan, C. Fei, W. Ren, L. Wang, G. Niu, J. Zhao, J. Zhuang, J. Zhang, K. Zheng, P. Lin, X. Sun, Q. Chen, Z. G. Ye, T. Karaki, IEEE Trans. Ultrason. Ferroelectr. Freq. Control 2021, 68, 1979.
[40]

H. Mei, M. F. Haider, R. Joseph, A. Migot, V. Giurgiutiu, Sensors 2019, 19, 383.
[41]

K. Shimomura, T. Tsurumi, Y. Ohba, M. Daimon, Jpn. J. Appl. Phys. 1991, 30, 2174.
[42]

C. Galassi, E. Roncari, C. Capiani, P. Pinasco, J. Eur. Ceram. Soc. 1997, 17, 367.
[43]

H. Miao, F. Li, Ultrasonics 2021, 114, 106355.
[44]

T. Zheng, J. Wu, D. Xiao, J. Zhu, Progr. Mater. Sci. 2018, 98, 552.
[45]

M. Kim, J. Kim, W. Cao, Appl. Phys. Lett. 2005, 87, 132901.
[46]

A. Ahmed, Y. Jia, H. Deb, M. F. Arain, H. Memon, K. Pasha, Y. Huang, Q. Fan, J. Shao, J. Mater. Sci.: Mater. Electron. 2022, 33, 3965.
[47]

Y. M. Yousry, V.-K. Wong, R. Ji, Y. Chen, S. Chen, X. Zhang, D. B. K. Lim, L. Shen, K. Yao, Adv. Funct. Mater. 2023, 33, 2213582.
[48]

J. J. F. Legrand, Ferroelectrics 1989, 91, 303.
[49]

E. Bellet-Amalric, J. F. Legrand, Eur. Phys. J. B 1998, 3, 225.
[50]

Y. J. Park, S. J. Kang, C. Park, K. J. Kim, H. S. Lee, M. S. Lee, U. I. Chung, I. J. Park, Appl. Phys. Lett. 2006, 88, 242908.
[51]

Y. Su, W. Li, L. Yuan, C. Chen, H. Pan, G. Xie, G. Conta, S. Ferrier, X. Zhao, G. Chen, H. Tai, Y. Jiang, J. Chen, Nano Energy 2021, 89, 106321.
[52]

Y. Su, C. Chen, H. Pan, Y. Yang, G. Chen, X. Zhao, W. Li, Q. Gong, G. Xie, Y. Zhou, S. Zhang, H. Tai, Y. Jiang, J. Chen, Adv. Funct. Mater. 2021, 31, 2010962.
[53]

Y. Li, K. Wang, W. Feng, H. Wu, Z. Su, S. Guo, Mech. Syst. Signal Process. 2022, 178, 109330.
[54]

H. Cho, M. Hasanian, S. Shan, C. J. Lissenden, NDT&E Int. 2019, 102, 35.
[55]

B. Ren, H. Cho, C. J. Lissenden, Sensors 2017, 17, 488.
[56]

T. Stepinski, M. Mańka, A. Martowicz, NDT&E Int. 2017, 86, 199.
[57]

S. Jiang, Y. Shen, S. Wang, W. Jiang, Y. Liu, Q. Wu, Sens. Actuators, A 2023, 362, 114655.
[58]

R. E. Newnham, L. J. Bowen, K. A. Klicker, L. E. Cross, Mater. Des. 1980, 2, 93.
[59]

H.-C. Liu, Y. Zeng, C. Gong, X. Chen, P. Kijanka, J. Zhang, Y. Genyk, H. Tchelepi, C. Wang, Q. Zhou, X. Zhao, Sci. Adv. 2024, 10, eadk8426.
[60]

Y. Sun, Y. Quan, C. Fei, X. Xue, J. Zhang, Y. Wang, X. Sun, Z. Li, T. Zhao, G. Xing, X. Zhang, Y. Zheng, W. Ren, Y. Yang, Ceram. Int. 2024, in press.
[61]

A. Deraemaeker, H. Nasser, A. Benjeddou, A. Preumont, J. Intell. Mater. Syst. Struct. 2009, 20, 1475.
[62]

P. Kabakov, T. Kim, Z. Cheng, X. Jiang, S. Zhang, Annu. Rev. Mater. Res. 2023, 53, 165.
[63]

J. Yin, S. Wang, A. Di Carlo, A. Chang, X. Wan, J. Xu, X. Xiao, J. Chen, Med-X 2023, 1, 3.
[64]

G. Chen, X. Xiao, X. Zhao, T. Tat, M. Bick, J. Chen, Chem. Rev. 2022, 122, 3259.
[65]

A. Libanori, G. Chen, X. Zhao, Y. Zhou, J. Chen, Nat. Electron. 2022, 5, 142.
[66]

Y. Birjis, S. Swaminathan, H. Nazemi, G. C. Raj, P. Munirathinam, A. Abu-Libdeh, A. Emadi, Sensors 2022, 22, 9151.
[67]

S. Sun, M. Zhang, C. Gao, B. Liu, W. Pang, in 2018 IEEE Int. Ultrason. Symp. (IUS)2018, pp. 1–4.
[68]

W. Liu, C. Zhu, D. Wu, Sens. Actuators, A 2021, 317, 112476.
[69]

Y. Lu, H. Tang, S. Fung, Q. Wang, J. M. Tsai, M. Daneman, B. E. Boser, D. A. Horsley, Appl. Phys. Lett. 2015, 106, 263503.
[70]

P.-C. Ma, N. A. Siddiqui, G. Marom, J.-K. Kim, Composites, Part A 2010, 41, 1345.
[71]

J. Li, P. C. Ma, W. S. Chow, C. K. To, B. Z. Tang, J. K. Kim, Adv. Funct. Mat. 2007, 17, 3207.
[72]

A. Tamburrano, F. Sarasini, G. De Bellis, A. G. D'Aloia, M. S. Sarto, Nanotechnology 2013, 24, 465702.
[73]

C. Martin, J. Sandler, M. Shaffer, M.-K. Schwarz, W. Bauhofer, K. Schulte, A. Windle, Compos. Sci. Technol. 2004, 64, 2309.
[74]

Q.-H. Zhang, D.-J. Chen, J. Mater. Sci. 2004, 39, 1751.
[75]

N. Hu, Z. Masuda, C. Yan, G. Yamamoto, H. Fukunaga, T. Hashida, Nanotechnology 2008, 19, 215701.
[76]

Y. Liao, F. Duan, H. Zhang, Y. Lu, Z. Zeng, M. Liu, H. Xu, C. Gao, L.-m. Zhou, H. Jin, Z. Zhang, Z. Su, Carbon 2019, 143, 743.
[77]

N. Hu, Y. Karube, M. Arai, T. Watanabe, C. Yan, Y. Li, Y. Liu, H. Fukunaga, Carbon 2010, 48, 680.
[78]

I. Kang, M. J. Schulz, J. H. Kim, V. Shanov, D. Shi, Smart Mater. Struct. 2006, 15, 737.
[79]

R. Guan, F. Zou, D. Li, W. Liu, C. Wu, Compos. Sci. Technol. 2021, 216, 109079.
[80]

G. Pandey, E. T. Thostenson, Polym. Rev. 2012, 52, 355.
[81]

J.-M. Park, D.-J. Kwon, Z.-J. Wang, K. L. DeVries, Adv. Compos. Mater. 2014, 24, 197.
[82]

E. T. Thostenson, T. W. Chou, Adv. Mater. 2006, 18, 2837.
[83]

M. Nofar, S. V. Hoa, M. D. Pugh, Compos. Sci. Technol. 2009, 69, 1599.
[84]

E. T. Thostenson, T. W. Chou, Nanotechnology 2008, 19, 215713.
[85]

Y. Li, K. Wang, Z. Su, Sensors 2018, 18, 1398.
[86]

N. Shirodkar, S. Cheng, G. D. Seidel, Composites, Part B 2021, 224, 109177.
[87]

E. T. Thostenson, T.-W. Chou, Carbon 2006, 44, 3022.
[88]

H. Zhang, Y. Liu, M. Kuwata, E. Bilotti, T. Peijs, Composites, Part A 2015, 70, 102.
[89]

M. A. Azam, N. S. A. Manaf, E. Talib, M. S. A. Bistamam, Ionics 2013, 19, 1455.
[90]

Q. Zhang, J. Liu, R. Sager, L. Dai, J. Baur, Compos. Sci. Technol. 2009, 69, 594.
[91]

J. Li, M. Sham, J. Kim, G. Marom, Compos. Sci. Technol. 2007, 67, 296.
[92]

M. Monti, M. Rallini, D. Puglia, L. Peponi, L. Torre, J. M. Kenny, Composites, Part A 2013, 46, 166.
[93]

B. Yang, F.-Z. Xuan, Z. Wang, L. Chen, H. Lei, W. Liang, Y. Xiang, K. Yang, Compos. Sci. Technol. 2018, 167, 86.
[94]

S. Luo, W. Obitayo, T. Liu, Carbon 2014, 76, 321.
[95]

K. Almuhammadi, M. Alfano, Y. Yang, G. Lubineau, Mater. Des. 2014, 53, 921.
[96]

M. Al-Bahrani, Z. J. Gombos, A. Cree, Composites, Part B 2019, 173, 106998.
[97]

A. Mohammed, S. Djurović, Microprocess. Microsyt. 2018, 62, 102.
[98]

Z. Tian, L. Yu, X. Sun, B. Lin, Struct. Health Monit. 2018, 18, 334.
[99]

K. S. Jasjot, G. Neena, D. Divya, Opt. Eng. 2020, 59, 060901.
[100]

M. Hirao, H. Ogi, EMATs for Science and Industry, Springer, Tokyo2003.
[101]

X. Jian, S. Dixon, R. S. Edwards, J. Morrison, Ultrasonics 2006, 44, e653.
[102]

D. Rueter, T. Morgenstern, Ultrasonics 2014, 54, 2141.
[103]

C. Xie, T. Liu, C. Pei, Z. Chen, Sens. Actuators, A 2023, 349, 114011.
[104]

C. Pei, P. Xiao, S. Zhao, Z. Chen, Sens. Actuators, A 2017, 258, 68.
[105]

Y. Y. Kim, Y. E. Kwon, Ultrasonics 2015, 62, 3.
[106]

Y. Sun, L. Jiang, R. Chen, R. Li, H. Kang, Y. Zeng, Y. Yan, S. Priya, Q. Zhou, IEEE Trans. Ultrason. Ferroelectr. Freq. Control 2022, 69, 3095.
[107]

D. G. Bekas, Z. Sharif-Khodaei, M. H. F. Aliabadi, Sensors 2018, 18, 2084.
[108]

Y. Li, Y. Liao, Z. Su, Compos. Sci. Technol. 2018, 168, 203.
[109]

J. Mathew, C. Hauser, P. Stoll, C. Kenel, D. Polyzos, D. Havermann, W. N. MacPherson, D. P. Hand, C. Leinenbach, A. Spierings, K. Koenig-Urban, R. R. J. Maier, IEEE Sens. J. 2017, 17, 4107.
[110]

A. K. Ramanathan, M. B. Gingerich, L. M. Headings, M. J. Dapino, Manuf. Lett. 2022, 31, 96.
[111]

Y. Wang, S. Hu, T. Xiong, Y. Huang, L. Qiu, Struct. Health Monit. 2021, 21, 2453.
[112]

M. Lin, X. Qing, A. Kumar, S. Beard, in SPIE's 8th Annu. Int. Symp. Smart Struct. Mater., Vol. 4332, Newport Beach, CA 2001.
[113]

Y. Wang, L. Qiu, Y. Luo, R. Ding, Struct. Health Monit. 2019, 20, 861.
[114]

G. Lanzara, J. Feng, F. K. Chang, Smart Mater. Struct. 2010, 19, 045013.
[115]

Y. Li, W. Feng, L. Meng, K. M. Tse, Z. Li, L. Huang, Z. Su, S. Guo, Mater. Des. 2021, 199, 109415.
[116]

P. Zhou, Y. Liao, Y. Li, D. Pan, W. Cao, X. Yang, F. Zou, L.-m. Zhou, Z. Zhang, Z. Su, Composites, Part A 2019, 125, 105554.
[117]

P. Zhou, Y. Liao, X. Yang, Y. Su, J. Yang, L. Xu, K. Wang, Z. Zeng, L.-M. Zhou, Z. Zhang, Z. Su, Carbon 2021, 184, 64.
[118]

M. Kobayashi, C. K. Jen, Smart Mater. Struct. 2004, 13, 951.
[119]

V. T. Rathod, A. A. Jeyaseelan, S. Dutta, D. R. Mahapatra, Smart Mater. Struct. 2017, 26, 105009.
[120]

S. Guo, L. Zhang, S. Chen, C. K. I. Tan, K. Yao, Smart Mater. Struct. 2019, 28, 075031.
[121]

H. Adachi, Y. Kuroda, T. Imahashi, K. Yanagisawa, Jpn. J. Appl. Phys. 1997, 36, 1159.
[122]

H. Kang, Y. Sun, R. Wodnicki, Q. He, Y. Zeng, G. Lu, J. Y. Yeom, Y. Yang, Q. Zhou, IEEE Trans. Ultrason. Ferroelectr. Freq. Control 2022, 69, 3382.
[123]

S. Minakuchi, N. Takeda, S.-I. Takeda, Y. Nagao, A. Franceschetti, X. Liu, Composites, Part A 2011, 42, 669.
[124]

P. Kudela, W. Ostachowicz, A. Żak, Mech. Syst. Signal Process. 2008, 22, 1327.
[125]

H.-Y. Tang, C. Winkelmann, W. Lestari, V. La Saponara, J. Intell. Mater. Syst. Struct. 2011, 22, 739.
[126]

C. Paget, Active Health Monitoring of Aerospace Composite Structures by Embedded Piezoceramic Transducers, Institutionen för flygteknik, Stockholm2001.
[127]

E. Moulin, J. Assaad, C. Delebarre, H. Kaczmarek, D. Balageas, J. Appl. Phys. 1997, 82, 2049.
[128]

S. G. Pierce, W. R. Philp, A. Gachagan, A. McNab, G. Hayward, B. Culshaw, Appl. Opt. 1996, 35, 5191.
[129]

S. Takeda, Y. Okabe, N. Takeda, Composites, Part A 2002, 33, 971.
[130]

Y. Su, J. Yang, Y. Liao, P. Zhou, L. Xu, L.-M. Zhou, Z. Su, Compos. Sci. Technol. 2021, 208, 108747.
[131]

Y. Su, L. Xu, P. Zhou, J. Yang, K. Wang, L.-M. Zhou, Z. Su, Composites, Part A 2022, 154, 106799.
[132]

F. Zhang, L. Gong, F. Wang, H. Zhou, W. He, Z. Huang, X. Peng, H. Zhou, Thin Walled Struct. 2023, 187, 110702.
[133]

E. Guzmán, J. Cugnoni, T. Gmür, Smart Mater. Struct. 2015, 24, 055017.
[134]

C. Tuloup, W. Harizi, Z. Aboura, Y. Meyer, Int. J. Smart Nano Mater. 2020, 11, 343.
[135]

H. P. Konka, M. A. Wahab, K. Lian, Sens. Actuators, A 2013, 194, 84.
[136]

Q. Wang, Y. Tian, A. Duongthipthewa, J. Zhang, M. Liu, Z. Su, L. Zhou, Compos. Sci. Technol. 2023, 236, 109995.
[137]

P. Stoll, E. Gasparin, A. Spierings, K. Wegener, Progr. Addit. Manuf. 2021, 6, 445.
[138]

C. M. Petrie, N. Sridharan, M. Subramanian, A. Hehr, M. Norfolk, J. Sheridan, Smart Mater. Struct. 2019, 28, 055012.
[139]

C. M. Petrie, N. Sridharan, A. Hehr, M. Norfolk, J. Sheridan, Smart Mater. Struct. 2019, 28, 085041.
[140]

H. Ryan, J. D. Marcelo, in Proc. SPIE2010, 76450O.
[141]

M. M. Khattak, L. M. Headings, M. J. Dapino, Actuators 2023, 12, 428.
[142]

J. Li, T. Monaghan, T. T. Nguyen, R. W. Kay, R. J. Friel, R. A. Harris, Composites, Part B 2017, 113, 342.
[143]

S. Galiana, M. Moradi, P. Wierach, D. Zarouchas, in Proc. 10th ECCOMAS Themat. Conf. Smart Struct. Mater. Patras, Greece 2023.
[144]

L. Qiu, X. Deng, S. Yuan, Y. Huang, Y. Ren, Sensors 2018, 18, 2218.
[145]

L. Capineri, A. Bulletti, Electronics 2021, 10, 1047.
[146]

Y. Liao, P. Zhou, D. Pan, L.-M. Zhou, Z. Su, Struct. Health Monit. 2019, 20, 894.
[147]

H. M. Matt, F. Lanza di Scalea, Smart Mater. Struct. 2007, 16, 1489.
[148]

M. Jiang, Y. Sai, X. Geng, Q. Sui, X. Liu, L. Jia, Sensors 2016, 16, 1770.
[149]

S. Salamone, I. Bartoli, P. Di Leo, F. Lanza Di Scala, A. Ajovalasit, L. D'Acquisto, J. Rhymer, H. Kim, J. Intell. Mater. Syst. Struct. 2010, 21, 887.
[150]

Y. Bhuiyan, B. Lin, V. Giurgiutiu, Ultrasonics 2019, 92.
[151]

R. Ernst, F. Zwimpfer, J. Dual, Ultrasonics 2016, 64, 139.
[152]

C. Rosalie, P. Norman, J. Smithard, C. Davis, N. Rajic, presented at ASME 2012 Conf. Smart Mater. Adapt. Struct. Intell. Syst., Vol. 1, Stone Mountain, GA 2012, pp. 723–729.
[153]

R. S. C. Monkhouse, P. W. Wilcox, M. J. S. Lowe, R. P. Dalton, P. Cawley, Smart Mater. Struct. 2000, 9, 304.
[154]

A. Gachagan, G. Hayward, R. Banks, IEEE Trans. Ultrason. Ferroelectr. Freq. Control 2005, 52, 1175.
[155]

N. Rajic, C. Davis, A. Thomson, Smart Mater. Struct. 2009, 18, 125005.
[156]

B. Ren, C. J. Lissenden, IEEE Trans. Ultrason. Ferroelectr. Freq. Control 2016, 63, 178.
[157]

J. P. Koduru, J. L. Rose, Smart Mater. Struct. 2012, 22, 015010.
[158]

J. Yin, V.-K. Wong, Q. Xu, P. T. C. Subhodayam, Y. M. Yousry, A. Shashidhara, J. Zhou, P. Luo, P. C. Lim, F. Wei, D. B. K. Lim, C. Sun, K. Yao, Adv. Funct. Mater. 2024, n/a, 2401544.
[159]

Y. Ohtsuka, T. Yoshimura, Y. Ueda, in 2007 IEEE Ultrason. Symp. Proc. 2007, pp. 1609–1612.
[160]

S. Guo, S. Chen, L. Zhang, W. H. Liew, K. Yao, NDT&E Int. 2019, 107, 102131.
[161]

A. B. Thien, H. C. Chiamori, J. T. Ching, J. R. Wait, G. Park, Struct. Control Health Monit. 2008, 15, 43.
[162]

T. R. Hay, J. L. Rose, IEEE Trans. Ultrason. Ferroelectr. Freq. Control 2006, 53, 1212.
[163]

O. Toshimichi, S. Masakazu, K. Satoshi, O. Yoji, T. Nobuo, in Proc. SPIE2004, pp. 425–436.
[164]

X. Qing, A. Kumar, C. Zhang, I. F. Gonzalez, G. Guo, F.-K. Chang, Smart Mater. Struct. 2005, 14, S98.
[165]

S. Hideki, O. Toshimichi, Y. Hiroshi, O. Yoji, T. Nobuo, K. Yasuhiro, in Proc. SPIE2008, 69322E.
[166]

L. Hyeonseok, S. Hoon, P. Hyun Woo, in Sens. Smart Struct. Technol. Civil Mech. Aero. Syst. 2011, Vol. 7981, San Diego, CA 2011, 79812G.
[167]

K. Takahashi, H. Soejima, M. Hiraki, N. Takeda, H. Kojima, in Proc. Eur. Workshop Struct. Health Monitor. 2016, pp. 5–8.
[168]

W. Cao, P. Zhou, Y. Liao, X. Yang, D. Pan, Y. Li, B. Pang, L.-M. Zhou, Z. Su, Sensors 2019, 19, 2077.
[169]

M. Liu, Z. Zeng, H. Xu, Y. Liao, L. Zhou, Z. Zhang, Z. Su, Ultrasonics 2017, 78, 166.
[170]

B. W. Drinkwater, P. D. Wilcox, NDT&E Int. 2006, 39, 525.
[171]

Z. Zhang, Q. Li, A. Cao, W. Yeoh, M. Liu, W. Yang, Compos. Sci. Technol. 2022, 225, 109514.
[172]

K. J. Langenberg, M. Berger, T. Kreutter, K. Mayer, V. Schmitz, NDT Int. 1986, 19, 177.
[173]

J. Tian, M. Liu, H. Xiao, Z. Zhang, W. Yang, Z. Long, C. Ming Leung, Mech. Syst. Signal Process. 2023, 199, 110486.
[174]

C. Holmes, B. W. Drinkwater, P. D. Wilcox, NDT&E Int. 2005, 38, 701.
[175]

J. Isla, F. Cegla, Ultrasonics 2017, 78, 1.
[176]

O. M. O. Abdalla, G. Massimino, F. Quaglia, M. Passoni, A. Corigliano, Micromachines 2023, 14, 311.
[177]

W. Ji, L. Liu, Z. Xing, D. Zhang, Y. Wang, L. Chen, Y. Chen, X. Sun, Y. Du, IEEE Trans. Ultrason. Ferroelectr. Freq. Control 2021, 68, 1380.
[178]

T.-T. Nguyen, D.-D. Ho, T.-C. Huynh, Dev. Built Environ. 2022, 12, 100089.
[179]

S. Park, D. J. Inman, C.-B. Yun, Eng. Struct. 2008, 30, 2792.
[180]

V. Giurgiutiu, A. Zagrai, Struct. Health Monit. 2005, 4, 99.
[181]

J. Wang, W. Li, C. Lan, P. Wei, W. Luo, Sens. Actuators, A 2020, 315, 112276.
[182]

S. Park, B. L. Grisso, D. J. Inman, C.-B. Yun, Res. Nondestr. Eval. 2007, 18, 139.
[183]

S. Park, J.-J. Lee, C.-B. Yun, D. J. Inman, J. Intell. Mater. Syst. Struct. 2007, 19, 509.
[184]

D. Gao, Z. Wu, L. Yang, Y. Zheng, Struct. Health Monit. 2017, 17, 763.
[185]

C. Prada, D. Clorennec, D. Royer, J. Acoust. Soc. America 2008, 124, 203.
[186]

Q. Xie, S. Mezil, P. H. Otsuka, M. Tomoda, J. Laurent, O. Matsuda, Z. Shen, O. B. Wright, Nat. Commun. 2019, 10, 2228.
[187]

S. Dixon, C. Edwards, S. B. Palmer, Ultrasonics 2001, 39, 445.
[188]

S. D. Holland, D. E. Chimenti, Ultrasonics 2004, 42, 957.
[189]

C. Wei, Z. Wang, W. Huang, J. Appl. Phys. 2021, 129, 034902.
[190]

W. Huang, X. Yan, S. R. Kwon, S. Zhang, F.-G. Yuan, X. Jiang, Appl. Phys. Lett. 2012, 101, 252903.
[191]

I. García, J. Zubia, G. Durana, G. Aldabaldetreku, M. A. Illarramendi, J. Villatoro, Sensors 2015, 15, 15494.
[192]

Y. Li, K. Wang, Q. Wang, J. Yang, P. Zhou, Y. Su, S. Guo, Z. Su, Struct. Health Monit. 2020, 20, 240.
[193]

A. Kocherla, M. Duddi, K. V. L. Subramaniam, Measurement 2021, 173, 108629.
[194]

Y. Xin, H. Sun, H. Tian, C. Guo, X. Li, S. Wang, C. Wang, Ferroelectrics 2016, 502, 28.
[195]

I. M. De Rosa, F. Sarasini, Polym. Test. 2010, 29, 749.
[196]

D. Li, K. Duan, Ferroelectrics 2014, 466, 86.
[197]

K. J. Kirk, C. W. Scheit, N. Schmarje, Insight Non-Destructive Test. Cond. Monit. 2007, 49, 142.
[198]

H. A. Sodano, G. Park, D. J. Inman, Mech. Syst. Signal Process. 2004, 18, 683.
[199]

M. Kabir, H. Kazari, D. Ozevin, Sens. Actuators, A 2018, 279, 53.
[200]

T. M. Khan, J. Sabino, C. Xu, J. Obregon, J. W. Adkins, M. Daly, A. Heifetz, D. W. Kultgen, D. Ozevin, in 2023 IEEE Int. Ultrason. Symp. (IUS)2023, pp. 1–4.
[201]

L. Zhang, W. Du, J.-H. Kim, C.-C. Yu, C. Dagdeviren, Adv. Mater. 2024, 36, 2307664.
[202]

K. Tschöke, T. Gaul, A. Pietzsch, E. Schulze, L. Schubert, Aerospace 2020, 7, 53.
[203]

Y.-K. An, H. Sohn, Mech. Syst. Signal Process. 2012, 28, 50.
[204]

S. Xie, M. Tian, P. Xiao, C. Pei, Z. Chen, T. Takagi, NDT&E Int. 2017, 86, 153.
[205]

Z. Duan, S. Xie, L. Huang, R. Zhao, M. Tian, T. Liu, C. Pei, Z. Chen, Mech. Syst. Signal Process. 2022, 178, 109267.
[206]

Q. Lin, Z. Li, B. Wang, M. Zhou, Y. Xie, D. Wang, C. Hou, R. Wang, X. Liu, X. Sun, H. Shan, Z. Chen, H. Wu, Y. Yang, C. Fei, Z. Chen, Sci. Adv. 2024, 10, eadl2232.
[207]

Z. Li, C. Fei, S. Yang, C. Hou, J. Zhao, Y. Li, C. Zheng, H. Wu, Y. Quan, T. Zhao, D. Chen, D. Li, G. Niu, W. Ren, M. Xiao, Y. Yang, Adv. Funct. Mater. 2022, 32, 2209173.
[208]

S. Zhang, S. Guo, Y. Li, H. Cao, M. Su, Z. Yao, W. Feng, Appl. Phys. Lett. 2023, 123, 252202.
[209]

Y. Tian, Y. Song, Y. Shen, Z. Yu, Ultrasonics 2022, 119, 106627.
[210]

Z. Liu, S. Shan, L. Cheng, Ultrasonics 2024, 139, 107295.
[211]

J. Lee, M. J. Kweun, W. Lee, H. M. Seung, Y. Y. Kim, Nat. Commun. 2024, 15, 992.
[212]

J. Lee, Y. Y. Kim, Smart Mater. Struct. 2023, 32, 123001.
[213]

P. Ladpli, F. Kopsaftopoulos, F.-K. Chang, J. Power Sources 2018, 384, 342.
[214]

X. Hu, Z. Jiang, L. Yan, G. Yang, J. Xie, S. Liu, Q. Zhang, Y. Xiang, H. Min, X. Peng, J. Power Sources 2020, 467, 228367.
[215]

A. White, I. Little, A. Artyuk, N. McKibben, F. Rajabi Kouchi, C. Chen, D. Estrada, Z. Deng, Smart Mater. Struct. 2024, 33, 055053.
[216]

V. Pandiyan, R. Wróbel, C. Leinenbach, S. Shevchik, J. Mater. Process. Technol. 2023, 321, 118144.
[217]

S. A. Shevchik, C. Kenel, C. Leinenbach, K. Wasmer, Addit. Manuf. 2018, 21, 598.
[218]

Y. Tian, C. Chen, K. Sagoe-Crentsil, J. Zhang, W. Duan, Autom. Constr. 2022, 139, 104273.
[219]

Y. Lu, X. Wang, S. Mao, D. Wang, D. Sun, Y. Sun, A. Su, C. Zhao, X. Han, K. Li, X. Feng, X. Liu, X. Kong, L. Lu, Z. Chu, Q. Zhang, M. Ouyang, Energy Environ. Sci. 2023, 16, 2448.
[220]

A. Zagrai, L. Peterson, F. Nwokocha, D. Hunter, L. Franchelle, S. Kessler, in Proc. 10th Int. Oper. Modal Anal. Conf. IOMAC 2024 (Eds: C. Rainieri, C. Gentile, M. Aenlle López), 2024, pp. 525–537.
[221]

S. Sony, S. Laventure, A. Sadhu, Struct. Control Health Monitor. 2019, 26, e2321.
[222]

O.-L. Ouabi, P. Pomarede, N. F. Declercq, N. Zeghidour, M. Geist, C. Pradalier, Ultrasonics 2022, 123, 106705.

RIGHTS & PERMISSIONS

2024 The Author(s). FlexMat published by John Wiley & Sons Australia, Ltd on behalf of Nanjing University of Posts & Telecommunications.

AI Summary AI Mindmap
PDF

0

Accesses

0

Citation

Detail
Sections
Recommended

AI思维导图

/