-
Magnetic response from micro and macro scale is widely used for stress evaluation in Non-destructive testing and evaluation. The basic principle is that the magnetic domain pattern and magnetic domain dynamics is highly depend on the applied tensile stress. Understanding the evolution of magnetic domains under the action of multi-field coupling is critical for developing novel magnetic non-destructive testing technologies. In this work, the effect of stress on magnetic domain and magneto-acoustic emission signals in polycrystalline materials was investigated based on the magneto-optical Kerr imaging and magneto-acoustic emission detection system. From the macroscopic scale, the mapping relationship between the magneto-acoustic emission signal and stress is established. Microscopically, the influence of the stress and grain boundaries on the magnetic domain patterns were investigated. And the correlation between supplementary domains and stress are built. Finally, the interrelation between the domain wall dynamics and the magneto-acoustic emission signal is revealed from the nucleation of supplementary domains and their stress-dependent evolution.
The results indicated that the magnetoelastic effect reduces the density of supplementary domains and 90° domains, which weaken the magneto-acoustic emission signal. The stress-magneto-acoustic model and the influence of the stress on the magnetic domain in this work reveals mechanism of magneto-acoustic emissions technique for stress measurement. It also provides a theoretical foundation for advancing stress-magnetic-acoustic models and magnetic non-destructive testing technology. -
[1] Zhang Z Q, Shi P P, Gou X F 2022Acta Phys. Sin. 71 097501(in Chinese) [张召泉,时朋朋,苟晓凡2022物理学报71 097501]
[2] Huang S, Ragusa C S, Xu W J, Solimene L, Wang S H 2024IEEE Trans. Instrum. Meas. 73
[3] Wang Z J, Shi P P, Chen H, Liang T S, Deng K, Chen Z M 2023J. Appl. Phys. 134065103
[4] Qian Z C, Miao X L, Wang J, Yang C L, Zhang W, Chen Z G, Li G R, Xu H M, Chen H B, Huang H H 2025Nondestruct. Test. Eval. 40 1483
[5] Liu Z H, Riaz W, Shen Y N, Wang X R, He C F, Shen G T 2024NDT E Int. 146103171
[6] Serbin E D, Kostin V N, Vasilenko O N, Ksenofontov D G, Gerasimov E G, Terentev P B 2020NDT E Int. 116 102330
[7] Stupakov A, Perevertov O, Landa M 2017J. Magn. Magn. Mater. 426 685
[8] Raftrey D, Finizio S, Chopdekar R V, Dhuey S, Bayaraa T, Ashby P, Raabe J, Santo T, Griffin S, Fischer P 2024Sci. Adv. 108615
[9] Nie H Y, Li Z H, Wang X S, Wang Z Y 2024Appl. Phys. Lett. 126132402
[10] Hariki A, Din D A, Amin O J, Yamaguchi T, Badura A, Kriegner D, Edmonds K W, Campion R P, Wadley P, Backes D, Veige L S I, Dhesi S S, Springholz G, Smejkal L, Vyborny K, Jungwirth T, Kunes J 2024Phys. Rev. Lett. 132 176701
[11] Zhao C R, Wei Y X, Liu T T, Qin M H 2023Acta Phys. Sin. 72 77(in Chinese) [赵晨蕊,魏云昕,刘婷婷,秦明辉2023物理学报72 77]
[12] Zhang Z D 2015Acta Phys. Sin. 6467503(in Chinese) [张志东2015物理学报64 067503]
[13] McCord J 2015J. Phys. D: Appl. Phys. 48 333001
[14] Hubert A, Schäfer R 2008Magnetic domains: the analysis of magnetic mi-crostructures (Vol. 1) (Heidelberg: Springer-Verlag) PP11—97
[15] Honkanen M, Lukinmaa H, Kaappa S, Santa-aho S, Kajan J, Savolainen S, Azzari L, Laurson L, Palosaaro M, Vippola M 2024Ultramicroscopy 262 113979
[16] Martínez M D P, Wartelle A, Martínez C H, Fettar F, Blondelle F, Motte J, Donnelly C, Turnbull L, Ogrin F, Lann G, Popescu H, Jaouen N, Yakhou-Harris F, Beutier G 2023Phys. Rev. B 107 04425
[17] Winter K, Liao Z R, Abbá E, Linares J A R, Axinte D 2024Nat. Commun. 15 9010
[18] Perevertov O, Schäfer R 2012J. Phys. D: Appl. Phys. 45 135001
[19] Qiu F S, Matic J K, Tian G Y, Wu G H, McCord J 2021J. Magn. Magn. Mater. 523 167588
[20] Qiu F S, Matic J K, Tian G Y, Hu P, McCord J 2019J. Phys. D: Appl. Phys. 52 265001
[21] Wu X, Zhang Y L, Wang Z, Li M X, Jiang W 2023Transactions of China Electrotechnical Society 38 2289(in Chinese) [吴鑫,张艳丽,王振,李梦星,姜伟2023电工技术学报38 2289]
[22] Zhang Z, Hamzehbahmani H, Gaskell P H. 2021IEEE Trans. Magn. 58 1
[23] Kawamura Y, Yamamoto S, Yamagata R, Nakamura S, Katsura S 2024IEEE Trans. Magn. 60
[24] Li Y J, Li Z M, Li Y T, Yue S C, Dou Y 2024Transactions of China Electrotechnical Society 39 6941(in Chinese) [李永建,李宗明,利雅婷,岳帅超,窦宇2024电工技术学报39 6941]
[25] Legall F, Morice C, Jahjah W, Bivic A, Ryon N, Richy J, Prinsloo A R E, Sheppard C J, Fessant A, Jay J P, Spenato D, Dekadjevi D T 2021Phys. Rev. Applied 15 044028
[26] Wu L B, Yao K, Zhao B X, Wang Y S 2019Appl. Phys. Lett. 115 162406
[27] Liu H Y, Xu Y F, Ye J L, Tang M T, Liu L P, Wei L H, Qiu F S 2022Failure analysis and prevention 17 247(in Chinese) [刘焕宇,许宇帆,叶家乐,唐梦婷,刘乐平,魏亮辉,邱发生2022失效分析与预防17 247]
Metrics
- Abstract views: 14
- PDF Downloads: 0
- Cited By: 0
下载:
