CONDENSED MATTER: STRUCTURE, MECHANICAL AND THERMAL PROPERTIES |
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Acoustic Response and Micro-Damage Mechanism of Fiber Composite Materials under Mode-II Delamination |
ZHOU Wei**, LV Zhi-Hui, WANG Ya-Rui, LIU Ran, CHEN Wei-Ye, LI Xiao-Tong |
College of Quality and Technical Supervision, Hebei University, Baoding 071002
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Cite this article: |
ZHOU Wei, LV Zhi-Hui, WANG Ya-Rui et al 2015 Chin. Phys. Lett. 32 046201 |
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Abstract Realizing the accurate characterization for the dynamic damage process is a great challenge. Here we carry out testing simultaneously for dynamic monitoring and acoustic emission (AE) statistical analysis towards fiber composites under mode-II delamination damage. The load curve, AE relative energy, amplitude distribution, and amplitude spectrum are obtained and the delamination damage mechanism of the composites is investigated by the microscopic observation of a fractured specimen. The results show that the micro-damage accumulation around the crack tip region has a great effect on the evolutionary process of delamination. AE characteristics and amplitude spectrum represent the damage and the physical mechanism originating from the hierarchical microstructure. Our finding provides a novel and feasible strategy to simultaneously evaluate the dynamic response and micro-damage mechanism for fiber composites.
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Received: 04 January 2015
Published: 30 April 2015
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PACS: |
62.20.mm
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(Fracture)
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81.05.Lg
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(Polymers and plastics; rubber; synthetic and natural fibers; organometallic and organic materials)
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[1] Thomas M H, Dharmaraj M and James E L 2005 J. Sol. Energy Eng. 127 544 [2] Mahmood M S and Roham R 2006 Compos. Struct. 74 332 [3] Rong J L, Wang D, Wang X, Li J, Xu T F, Lu M M and Cao M S 2013 Chin. Phys. Lett. 30 016203 [4] Szekrényes A 2013 Int. J. Damage Mech. 22 1161 [5] Szekrényes A 2012 Int. J. Solids Struct. 49 2460 [6] Bakhtiary Davijani A A, Hajikhani M and Ahmadi M 2011 Mater. Des. 32 3059 [7] Rong J L, Gan Z K, Wang D and Cao M S 2015 Comput. Mater. Sci. 96 185 [8] Stevanovic D, Jar P Y B, Kalyanasundaram S and Lowe A 2000 Compos. Sci. Technol. 60 1879 [9] De Morais A B, De Moura M F, Marques A T and De Castro P T 2002 Compos. Sci. Technol. 62 679 [10] Yan A M, Marechal E and Nguyen-Dang H 2001 Compos. Sci. Technol. 61 1413 [11] Sun C T and Zheng S 1996 Compos. Sci. Technol. 56 451 [12] Segurado J and Llorca J 2004 Int. J. Solids Struct. 41 2977 [13] Turon A, Dávila C G, Camanho P P and Costa J 2007 Eng. Fract. Mech. 74 1665 [14] Barrett J D and Foschi R O 1977 Eng. Fract. Mech. 9 371 [15] Luo Q and Tong L 2009 Compos. Struct. 89 235 [16] Wang D, Ye L, Tang Y and Lu Y 2012 Compos. Sci. Technol. 72 145 [17] Zhou W and Jin H B 2012 J. Compos. Mater. 46 291 [18] Lorriot T, Wargnier H, Wahl J C, Proust A and Lagunegrand L 2014 J. Compos. Mater. 48 2175 [19] Zhou W, Liu R, Lv Z H, Chen W Y and Li X T 2015 J. Reinf. Plast. Compos. 34 84 [20] Amilcar Q, Basir S, Frederick J and David S 2004 Compos. Part B 35 563 [21] Lagunegrand L, Lorriot T, Harry R, Wargnier H and Quenisset J M 2006 Compos. Part B 66 1315 [22] Oskouei A R and Ahmadi M 2010 J. Compos. Mater. 44 793 [23] Lorriot T, Marion G, Harry R and Wargnier H 2003 Compos. Part B 34 459 [24] Silversides I, Maslouhi A and LaPlante G 2013 Struct. Health Monit. 12 126 [25] Yousefi J, Ahmadi M, Shahri M N, Oskouei A R and Moghadas F J 2014 Arab. J. Sci. Eng. 39 1325 [26] Mohamad F and Mehdi A N 2014 J. Reinf. Plast. Compos. 33 1767 [27] Qi G, Fan M, Lewis G and Wayne S F 2012 J. Mater. Sci.: Mater. Med. 23 217 |
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