监测碳纤维增强树脂基复合材料(CFRP)的结构损伤是一个关键问题.本文就目前国内外研究较热且应用前景较大的一类新型无损检测技术——基于CFRP导电网络的自检技术进行综述,总结了直流法和交流法的原理和技术特点,尤其是对各种检测方法适用的环境和损伤类型进行了评估.最后指出了发展出一套智能化的CFRP结构损伤自检体系所要进一步开展的研究工作.
参考文献
[1] | DAOJUN WANG;SHOUKAI WANG;D. D. L. CHUNG;JAYCEE H. CHUNG.Comparison of the Electrical Resistance and Potential Techniques for the Self-sensing of Damage in Carbon Fiber Polymer-Matrix Composites[J].Journal of Intelligent Material Systems and Structures,200610(10):853-861. |
[2] | A.Sjogren;A. Krasnikovs;I. Varna.Experimental determination of elastic properties of impact damage in carbon fibre/epoxy laminates[J].Composites, Part A. Applied science and manufacturing,20019(9):1237-1242. |
[3] | K. Imielinska;M. Castaings;R. Wojtyra.Air-coupled ultrasonic C-scan technique in impact response testing of carbon fibre and hybrid: glass, carbon and Kevlar/epoxy composites[J].Journal of Materials Processing Technology,20040(0):513-522. |
[4] | V. Trappe;K.-W. Harbich.Intralaminar fatigue behaviour of carbon fibre reinforced plastics[J].International Journal of Fatigue,200610(10):1187-1196. |
[5] | M. Bourchak;I.R. Farrow;I.P. Bond.Acoustic emission energy as a fatigue damage parameter for CFRP composites[J].International Journal of Fatigue,20072(2):457-470. |
[6] | Silva JMA.;Ferreira JAM.;Devezas TC..Fatigue damage of carbon-epoxy laminates with embedded optical fibres[J].Materials Science and Technology: MST: A publication of the Institute of Metals,20036(6):809-814. |
[7] | Wang XJ.;Chung DDL..Short carbon fiber reinforced epoxy coating as a piezoresistive strain sensor for cement mortar[J].Sensors and Actuators, A. Physical,19983(3):208-212. |
[8] | D.D.L.Chung;Shoukai Wang.Self-sensing of Damage and Strain in Carbon Fiber Polymer-Matrix Structural Composites by Electrical Resistance Measurement[J].Polymers & Polymer Composites,20037(7):515-525. |
[9] | M. Kupke;K. Schulte;R. Schuler.Non-destructive testing of FRP by d.c. and a.c. electrical methods[J].Composites science and technology,20016(6):837-847. |
[10] | I. De Baere;W. Van Paepegem;J. Degrieck.Electrical resistance measurement for in situ monitoring of fatigue of carbon fabric composites[J].International Journal of Fatigue,20101(1):197-207. |
[11] | Wang SK;Wang DJ;Chung DDL;Chung JCH.Method of sensing impact damage in carbon fiber polymer-matrix composite by electrical resistance measurement[J].Journal of Materials Science,20068(8):2281-2289. |
[12] | Xu MX.;Gao ZX.;Fang LP.;Yao KD.;Liu WG..CORRELATION OF CHANGE IN ELECTRICAL RESISTANCE WITH STRAIN OF CARBON FIBER-REINFORCED PLASTIC IN TENSION[J].Journal of Applied Polymer Science,199610(10):1595-1599. |
[13] | O. Ceysson;M. Salvia;L. Vincent.Damage mechanisms characterisation of carbon fibre/epoxy composite laminates by both electrical resistance measurements and acoustic emission analysis[J].Scripta materialia,19968(8):1273-1280. |
[14] | WANG SHOUKAI.Piezoresistivity in Continuous Carbon Fiber Polymer-Matrix Composite[J].Polymer Composites,20001(1):13-19. |
[15] | Wang S;Chung DDL.Effects of composite lay-up configuration and thickness on the damage self-sensing behavior of carbon fiber polymer-matrix composite[J].Journal of Materials Science,20053(3):561-568. |
[16] | Wang SK;Chung DDL.The interlaminar interface of a carbon fiber epoxy-matrix composite as an impact sensor[J].Journal of Materials Science,20058(8):1863-1867. |
[17] | Wang SK;Chung DDL;Chung JH.Self-sensing of damage in carbon fiber polymer-matrix composite by measurement of the electrical resistance or potential away from the damaged region[J].Journal of Materials Science,200524(24):6463-6472. |
[18] | Shoukai Wang;D. D. L. Chung;Jaycee H. Chung.Impact damage of carbon fiber polymer-matrix composites, studied by electrical resistance measurement[J].Composites, Part A. Applied science and manufacturing,200512(12):1707-1715. |
[19] | Angelidis N;Khemiri N;Irving PE.Experimental and finite element study of the electrical potential technique for damage detection in CFRP laminates[J].Smart Materials & Structures,20051(1):147-154. |
[20] | Wang DJ;Wang SK;Chung DDL;Chung JH.Sensitivity of the two-dimensional electric potential/resistance method for damage monitoring in carbon fiber polymer-matrix composite[J].Journal of Materials Science,200615(15):4839-4846. |
[21] | Wang D;Chung DDL.Comparative evaluation of the electrical configurations for the two-dimensional electric potential method of damage monitoring in carbon fiber polymer-matrix composite[J].Smart Materials & Structures,20065(5):1332-1344. |
[22] | S. Wang;D.D.L. Chung.Self-sensing of flexural strain and damage in carbon fiber polymer-matrix composite by electrical resistance measurement[J].Carbon: An International Journal Sponsored by the American Carbon Society,200613(13):2739-2751. |
[23] | Shoukai Wang;Daniel P.Koalik;D.D.L.Chung.Effect of The temperature, Humidity, and stress on the interlaminar interface of carbon fiber polymer-matrix composites studied by contact electrical resistivity measurement[J].The Journal of Adhesion,20022(2):189-200. |
[24] | N. Angelidis;C.Y. Wei;P.E. Irving.The electrical resistance response of continuous carbon fibre composite laminates to mechanical strain[J].Composites, Part A. Applied science and manufacturing,200410(10):1135-1147. |
[25] | Akira TODOROKF;Jyunji YOSHIDA.Electrical resistance change of unidirectional CFRP due to applied load[J].JSME International Journal, Series A. Solid mechanics and material engineering,20043(3):357-364. |
[26] | Lianxi Shen;Jackie Li;Benjamin M. Liaw.Modeling and analysis of the electrical resistance measurement of carbon fiber polymer-matrix composites[J].Composites science and technology,200711/12(11/12):2513-2520. |
[27] | Akira Todoroki;Yuuki Tanaka;Yoshinobu Shimamura.Multi-prove electric potential change method for delamination monitoring of graphite/epoxy composite plates using normalized response surfaces[J].Composites science and technology,20045(5):749-758. |
[28] | Ueda M;Todoroki A;Shimamura Y;Kobayashi H.Monitoring delamination of laminated CFRP using the electric potential change method: Application of normalization method and the effect of the shape of a delamination crack[J].Advanced Composite Materials: The Official Journal of the Japan Society of Composite Materials,20043/4(3/4):311-324. |
[29] | Ueda M;Todoroki A;Shimamura Y;Kobayashi H.Monitoring delamination of laminated CFRP using the electric potential change method (two-stage monitoring for robust estimation)[J].Advanced Composite Materials: The Official Journal of the Japan Society of Composite Materials,20051(1):83-97. |
[30] | X.J. Wang;S.K. Wang.Sensing damage in carbon fiber and its polymer-matrix and carbon-matrix composites by electrical resistance measurement[J].Journal of Materials Science,199911(11):2703-2713. |
[31] | D.D.L. Chung.Carbon materials for structural self-sensing, electromagnetic shielding and thermal interfacing[J].Carbon: An International Journal Sponsored by the American Carbon Society,20129(9):3342-3353. |
[32] | Wang SK;Kowalik DP;Chung DDL.Self-sensing attained in carbon-fiber-polymer-matrix structural composites by using the interlaminar interface as a sensor[J].Smart Materials & Structures,20043(3):570-592. |
[33] | A. Fosbury;Shoukai Wang;Y.F. Pin.The interlaminar interface of a carbon fiber polymer-matrix composite as a resistance heating element[J].Composites, Part A. Applied science and manufacturing,200310(10):933-940. |
[34] | J.C. Abry;Y.K. Choi;A. Chateauminois.In-situ monitoring of damage in CFRP laminates by means of AC and DC measurements[J].Composites science and technology,20016(6):855-864. |
[35] | Jie Wen;Zhenhai Xia;Fred Choy.Damage detection of carbon fiber reinforced polymer composites via electrical resistance measurement[J].Composites, Part B. Engineering,20111(1):77-86. |
[36] | Raihan, Rassel;Adkins, Jon-Michael;Baker, Jeffrey;Rabbi, Fazle;Reifsnider, Kenneth.Relationship of dielectric property change to composite material state degradation[J].Composites science and technology,2014Dec.(Dec.):160-165. |
[37] | Todoroki, Akira;Yamada, Kazuhiro;Mizutani, Yoshihiro;Suzuki, Yoshiro;Matsuzaki, Ryosuke.Impact damage detection of a carbon-fibre-reinforced-polymer plate employing self-sensing time-domain reflectometry[J].Composite structures,2015Oct.(Oct.):174-179. |
[38] | P. BOINARD;R. A. PETHRICK;W. M. BANKS.Non destructive evaluation of adhesively bonded composite structures using high frequency dielectric spectroscopy[J].Journal of Materials Science,20006(6):1331-1337. |
[39] | W. M. Banks;R. A. Pethrick;G. S. Armstrong;R. L. Crane;D. Hayward.Dielectric and mechanical studies of the durability of adhesively bonded CFRP structures subjected to aging in various solvents[J].Proceedings of the Institution of Mechanical Engineers, Part L. Journal of Materials: Design and Application,2004l4(l4):273-281. |
[40] | B. K. McConnell;R. A. Pethrick.Influence of Thermal Spikes on the Ageing of Adhesively Bonded Structures - A Dielectric Study[J].The Journal of Adhesion,20081/3(1/3):193-211. |
[41] | B.K. McConnell;R.A Pethrick.A dielectric study of hydrolytic ageing and the effects of periodic freezing in carbon fibre reinforced plastic jointed structures[J].International Journal of Adhesion & Adhesives,20104(4):214-224. |
[42] | G. D. Davis;R. A. Pethrick;J. Doyle.Detection of Moisture in Adhesive Bonds Using Electrochemical Impedance and Dielectric Spectroscopies[J].Journal of Adhesion Science and Technology: The International Journal of Theoredtical and Basic Aspects of Adhesion Science and Its Applications in All Areas of Technology,20094(4):517-538. |
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