Scalable preparation of multiscale carbon nanotube/glass fiber reinforcements and their application in polymer composites
详细信息 查看全文
- 作者:Ke Peng (1) (2)
Yan-Jun Wan (1)
Dong-You Ren (2)
Qing-Wen Zeng (2)
Long-Cheng Tang (1) - 关键词:Glass fibers ; Carbon nanotubes ; Polymer ; matrix composites (PMCs) ; Mechanical properties ; Electron microscopy
- 刊名:Fibers and Polymers
- 出版年:2014
- 出版时间:June 2014
- 年:2014
- 卷:15
- 期:6
- 页码:1242-1250
- 全文大小:1,258 KB
- 参考文献:1. Y. R. Lin, G. Ehlert, and H. A. Sodano, / Adv. Funct. Mater., 19, 2654 (2009). CrossRef
2. F. H. Gojny, M. H. G. Wichmann, U. Kopke, B. Fiedler, and K. Schulte, / Compos. Sci. Technol., 64, 2363 (2004). CrossRef
3. E. T. Thostenson and T. W. Chou, / Carbon, 44, 3022 (2006). CrossRef
4. L. C. Tang, H. Zhang, J. H. Han, X. P. Wu, and Z. Zhang, / Compos. Sci. Technol., 72, 7 (2011). CrossRef
5. L. C. Tang, Y. J. Wan, K. Peng, Y. B. Pei, L. B. Wu, L. M. Chen, L. J. Shu, J. X. Jiang, and G. Q. Lai, / Compos. Part A-Appl. S., 45, 95 (2013). CrossRef
6. F. H. Gojny, M. H. G. Wichmann, B. Fiedler, W. Bauhofer, and K. Schulte, / Compos. Part A-Appl. S., 36, 1525 (2005). CrossRef
7. E. Bekyarova, E. T. Thostenson, A. Yu, H. Kim, J. Gao, J. Tang, H. T. Hahn, T. W. Chou, M. E. Itkis, and R. C. Haddon, / Langmuir, 23, 3970 (2007). CrossRef
8. M. Kim, Y. B. Park, O. I. Okoli, and C. Zhang, / Compos. Sci. Technol., 69, 335 (2009). CrossRef
9. L. M. Gao, E. T. Thostenson, Z. Zhang, and T. W. Chou, / Adv. Funct. Mater., 19, 123 (2009). CrossRef
10. T. W. Chou, L. Gao, E. T. Thostenson, Z. Zhang, and J. H. Byun, / Compos. Sci. Technol., 70, 1 (2010). CrossRef
11. H. Qian, A. Bismarck, E. S. Greenhalgh, and M. S. P. Shaffer, / Compos. Part A-Appl. S., 41, 1107 (2010). CrossRef
12. B. C. Wang, X. Zhou, and K. M. Ma, / Compos. Part BEng., 46, 123 (2013). CrossRef
13. H. Qian, A. R. Kucernak, E. S. Greenhalgh, A. Bismarck, and M. S. Shaffer, / ACS Appl. Mater. Interfaces, 5, 6113 (2013). CrossRef
14. N. De Greef, L. Gorbatikh, A. Godara, L. Mezzo, S. V. Lomov, and I. Verpoest, / Carbon, 49, 4650 (2011). CrossRef
15. A. Godara, L. Mezzo, F. Luizi, A. Warrier, S. V. Lomov, A. W. van Vuure, L. Gorbatikh, P. Moldenaers, and I. Verpoest, / Carbon, 47, 2914 (2009). CrossRef
16. J. Rausch, R. C. Zhuang, and E. Mader, / Materials Technology, 24, 29 (2009).
17. M. Li, Y. Gu, Y. Liu, Y. Li, and Z. Zhang, / Carbon, 52, 109 (2013). CrossRef
18. E. T. Thostenson, W. Z. Li, D. Z. Wang, Z. F. Ren, and T. W. Chou, / J. Appl. Phys., 91, 6034 (2002). CrossRef
19. Q. J. Gong, H. J. Li, X. Wang, Q. G. Fu, Z. W. Wang, and K. Z. Li, / Compos. Sci. Technol., 67, 2986 (2007). CrossRef
20. K. L. Kepple, G. P. Sanborn, P. A. Lacasse, K. M. Gruenberg, and W. J. Ready, / Carbon, 46, 2026 (2008). CrossRef
21. H. C. Malecki and M. Zupan, / Compos. Part A-Appl. S., 43, 1914 (2012). CrossRef
22. Z. H. Fan, M. H. Santare, and S. G. Advani, / Compos. Part A-Appl. S., 39, 540 (2008). CrossRef
23. N. A. Siddiqui, M. L. Sham, B. Z. Tang, A. Munir, and J. K. Kim, / Compos. Part A-Appl. S., 40, 1606 (2009). CrossRef
24. D. Domingues, E. Logakis, and A. A. Skordos, / Carbon, 50, 2493 (2012). CrossRef
25. S. Markkula, H. C. Malecki, and M. Zupan, / Compos. Struct., 95, 337 (2013). CrossRef
26. A. Warrier, A. Godara, O. Rochez, L. Mezzo, F. Luizi, L. Gorbatikh, S. V. Lomov, A. W. VanVuure, and I. Verpoest, / Compos. Part A-Appl. S., 41, 532 (2010). CrossRef
27. J. E. Zhang, R. C. Zhuang, J. W. Liu, E. Mader, G. Heinrich, and S. L. Gao, / Carbon, 48, 2273 (2010). CrossRef
28. S. L. Gao, R. C. Zhuang, J. Zhang, J. W. Liu, and E. Mader, / Adv. Funct. Mater., 20, 1885 (2010). CrossRef
29. N. A. Siddiqui, E. L. Li, M. L. Sham, B. Z. Tang, S. L. Gao, E. Mader, and J. K. Kim, / Compos. Part A-Appl. S., 41, 539 (2010). CrossRef
30. J. Guo and C. Lu, / Carbon, 50, 3101 (2012). CrossRef
31. J. Guo, C. Lu, F. An, and S. He, / Mater. Lett., 66, 382 (2012). CrossRef
32. H. Qian, E. S. Greenhalgh, M. S. P. Shaffer, and A. Bismarck, / J. Mater. Chem., 20, 4751 (2010). CrossRef
33. R. J. Sager, P. J. Klein, D. C. Lagoudas, Q. Zhang, J. Liu, L. Dai, and J. W. Baur, / Compos. Sci. Technol., 69, 898 (2009). CrossRef
34. J. J. Qiu, C. Zhang, B. Wang, and R. Liang, / Nanotechnology, 18 (2007).
35. E. F. Reia da Costa, A. A. Skordos, I. K. Partridge, and A. Rezai, / Compos. Part A-Appl. S., 43, 593 (2012). CrossRef
36. J. D. Schaefer, A. J. Rodriguez, M. E. Guzman, C. S. Lim, and B. Minaie, / Carbon, 49, 2750 (2011). CrossRef
37. A. J. Rodriguez, M. E. Guzman, C.-S. Lim, and B. Minaie, / Carbon, 49, 937 (2011). CrossRef
38. J. Yu, N. Grossiord, C. E. Koning, and J. Loos, / Carbon, 45, 618 (2007). CrossRef
39. Y. Geng, M. Y. Liu, J. Li, X. M. Shi, and J. K. Kim, / Compos. Part A-Appl. S., 39, 1876 (2008). CrossRef
40. R. Zhang, Y. Huang, L. Liu, Y. Tang, D. Su, and L. Xu, / Mater. Des., 33, 367 (2012). CrossRef
41. R. L. Zhang, Y. D. Huang, D. Su, L. Liu, and Y. R. Tang, / Mater. Des., 34, 649 (2012). CrossRef
42. R. L. Zhang, Y. D. Huang, L. Liu, Y. R. Tang, D. Su, and L. W. Xu, / Appl. Surf. Sci., 257, 3519 (2011). CrossRef
43. R. L. Zhang, Y. D. Huang, L. Liu, Y. R. Tang, D. Su, and L. W. Xu, / Appl. Surf. Sci., 257, 1840 (2011). CrossRef
44. A. Godara, L. Gorbatikh, G. Kalinka, A. Warrier, O. Rochez, L. Mezzo, F. Luizi, A. W. van Vuure, S. V. Lomov, and I. Verpoest, / Compos. Sci. Technol., 70, 1346 (2010). CrossRef
45. J. H. Guo, C. X. Lu, and F. An, / J. Mater. Sci., 47, 2831 (2012). CrossRef
46. X. Li, Y. Qin, S. T. Picraux, and Z.-X. Guo, / J. Mater. Chem., 21, 7527 (2011). CrossRef
47. S. W. Kim, T. Kim, Y. S. Kim, H. S. Choi, H. J. Lim, S. J. Yang, and C. R. Park, / Carbon, 50, 3 (2012). CrossRef
48. Y. J. Wan, L. C. Tang, D. Yan, L. Zhao, Y. B. Li, L. B. Wu, J. X. Jiang, and G. Q. Lai, / Compos. Sci. Technol., 82, 60 (2013). CrossRef
49. P. C. Ma, N. A. Siddiqui, G. Marom, and J. K. Kim, / Compos. Part A-Appl. S., 41, 1345 (2010). CrossRef
50. V. C. Moore, M. S. Strano, E. H. Haroz, R. H. Hauge, R. E. Smalley, J. Schmidt, and Y. Talmon, / Nano Letters, 3, 1379 (2003). CrossRef
51. C. Richard, F. Balavoine, P. Schultz, T. W. Ebbesen, and C. Mioskowski, / Science, 300, 775 (2003). CrossRef
52. H. Gu, S. Tadakamalla, Y. Huang, H. A. Colorado, Z. Luo, N. Haldolaarachchige, D. P. Young, S. Wei, and Z. Guo, / ACS Appl. Mater. Interfaces, 4, 5613 (2012). CrossRef
53. L. C. Tang, X. Wang, Y. J. Wan, L. B. Wu, J. X. Jiang, and G. Q. Lai, / Mater. Chem. Phys., 141, 333 (2013). CrossRef
54. L. C. Tang, Y. J. Wan, D. Yan, Y. B. Pei, L. Zhao, Y. B. Li, L. B. Wu, J. X. Jiang, and G. Q. Lai, / Carbon, 60, 16 (2013). CrossRef
55. M. Tajvidi, R. H. Falk, and J. C. Hermanson, / J. Appl. Polym. Sci., 101, 4341 (2006). CrossRef
56. S. Houshyar, R. A. Shanks, and A. Hodzic, / J. Appl. Polym. Sci., 96, 2260 (2005). CrossRef
57. L. Li, C. Y. Li, and C. Ni, / J. Am. Chem. Soc., 128, 1692 (2006). CrossRef
58. A. Amash and P. Zugenmaier, / J. Appl. Polym. Sci., 63, 1143 (1997). CrossRef
59. L. Vaisman, G. Marom, and H. D. Wagner, / Adv. Funct. Mater., 16, 357 (2006). CrossRef
60. S. Rahmanian, K. S. Thean, A. R. Suraya, M. A. Shazed, M. A. M. Salleh, and H. M. Yusoff, / Mater. Des., 43, 10 (2013). CrossRef
61. C. R. Chiang, / Compos. Sci. Technol., 50, 479 (1994). CrossRef
62. S. Y. Fu and B. Lauke, / Compos. Sci. Technol., 56, 1179 (1996). CrossRef
63. S. Y. Fu and B. Lauke, / Compos. Sci. Technol., 58, 389 (1998). CrossRef
64. B. Lauke and S.-Y. Fu, / Compos. Sci. Technol., 59, 699 (1999). CrossRef
65. D. Hull and T. W. Clyne, 鈥淎n Introduction to Composite Materials鈥? Cambridge Cambridge University Press, 2001.
66. D. Y. Wu, S. Meure, and D. Solomon, / Prog. Polym. Sci., 33, 479 (2008). CrossRef
67. S. Y. Fu, B. Lauke, Y. H. Zhang, and Y. W. Mai, / Compos. Part A-Appl. S., 36, 987 (2005). CrossRef
68. S. Y. Fu, B. Lauke, R. K. Y. Li, and Y. W. Mai, / Compos. Part B-Eng., 37, 182 (2005). CrossRef - 作者单位:Ke Peng (1) (2)
Yan-Jun Wan (1)
Dong-You Ren (2)
Qing-Wen Zeng (2)
Long-Cheng Tang (1)
1. Key Laboratory of Organosilicon Chemistry and Material Technology of Ministry of Education, Hangzhou Normal University, Hangzhou, 310012, China
2. Chongqing Polycomp International Corporation, Chongqing, 400082, China - ISSN:1875-0052
文摘
The introduction of carbon nanotubes (CNTs) into conventional fiber to construct a hierarchical structure in polymer composites has attracted great interest owing to their merits of performance improvement and multiple functionalities. However, there is a challenge for realizing the scalable preparation of the multi-scale CNT-glass fiber (CNTGF) reinforcements in practical application. In this work, we present a simple and continuous method of the mass production of multiscale CNT-glass fiber (CNT-GF) reinforcements. Scanning electron microscopy and thermo gravimetric analysis indicated ~1.0 wt% CNTs were highly dispersed on the whole fiber surface through a facile surfactant-assisted process. Such hybrid CNT-GF fillers were found to effectively enhance the stiffness, strength and impact resistance of polypropylene polymer. Increased storage modulus, glass transition temperature and crystallization temperature of the composites filled with the CNT-GF fillers were also observed in the differential scanning calorimetry and dynamic mechanical analysis compared with the composites containing the pristine GF fillers. Fracture surface analysis revealed enhanced interfacial quality between CNT-GF and matrix, which is likely responsible for improved performance of the hierarchical polymer composites.