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This research aimed to explore the influence of fiber laying angles on the bending resistance properties of carbon fiber/foam sandwich structural composites. Four kinds of composites with the following laying angles: [0°]8, [0°/45°/90°/-45°]s, [0°/90°]4 and [45°/-45°]4 were prepared and tested in three-point bending experiments. The results obtained showed that the bending resistance performance was the best when the laying angle was [0°]8, while it was the worst when the laying angle was [45°/-45°]4. Besides, it was found that the tensile performance was the best when the fibers were arranged in the 0° direction when the strength utilisation rate was the highest. In addition, by observing the failure morphologies of the composites, the delamination and foam cracking were found in the four groups of composites. In contrast, the phenomenon of significant fracture was found on composites with a laying angle of [45°/-45°]4 only, indicating it had a poor bending resistance performance.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
75--81
Opis fizyczny
Bibliogr. 30 poz., rys., tab.
Twórcy
autor
- College of Textile Science and Engineering (International Institute of Silk), Zhejiang Sci-Tech University, Zhejiang Province 310018, P.R. China
- Key Laboratory of Clean Dyeing and Finishing Technology of Zhejiang Province, Zhejiang Province 312000, P.R. China
- Shaoxing Baojing Composite Materials CO., LTD, Shaoxing, Zhejiang Province 312000 P.R. China
autor
- School of Materials Science, Shanghai Dianji University, Shanghai 201306, P.R. China
autor
- School of Materials Science, Shanghai Dianji University, Shanghai 201306, P.R. China
autor
- Shaoxing Baojing Composite Materials CO., LTD, Shaoxing, Zhejiang Province 312000 P.R. China
autor
- College of Textile Science and Engineering (International Institute of Silk), Zhejiang Sci-Tech University, Zhejiang Province 310018, P.R. China
Bibliografia
- 1. Endres GC, Weber HJ. U. S. Patent 083389, 2005.
- 2. Zhang W, Qin QH, Li JF, Su BH Zhang JX. Composites Part B, 2020; 201.
- 3. Hochet N, Vendangeot F. European Patent 0989932, 2003.
- 4. Fedon N, Weaver PM, Pirrera A, Macquart T. Composites Part C: Open Access, 2021; 4.
- 5. Yang DX, Hu YC, Fan CS. Journal of West China Forestry Science 2019; 48: 16.
- 6. Sun GY, Wang Z, Yu H, Gong ZH, Li Q. Composite Structures 2019; 209, 535.
- 7. Sullivan CC. Building Design & Construction 2018; 9, 65.
- 8. Peijs A, Jacobs M, Lemstra PJ. Comprehensive Composite Materials II, 2018; 1, 86.
- 9. Fatt MSH, Alkhtany M, Sirivolu D. Composite Sandwich Structures 2018; 265.
- 10. Tang E, Zhang X, Han Y. International Journal of Structural Stability & Dynamics 2020; 20.
- 11. Hussain M, Abbas N, Zahra N, Sajjad U, Awan MB. Sn Applied Ences 2019; 1: 875.
- 12. Manalo AC, Aravinthan T, Karunasena W. Construction and Building Materials 2013; 47.
- 13. Selvaraj R, Ramamoorthy M, Arumugam AB. Composite Structures 2021; 277.
- 14. Stokke RM, Jertson MR, Schweigert BD, U. S. Patent 006589, 2015.
- 15. M. Endo, H. Takiyama, and N. Andou, Japan Patent, 087992 (2005).
- 16. Dong C, Kai L, Jiang Y, Dwayne A, Zhang D. Optics Express 2018; 26:531.
- 17. Hou Z, Tian X, Zhang J, Li D. Composite Structures 2018; 184: 1005.
- 18. Xiong J, Ma L, Pan S, Wu L, Vaziri A. Acta Materialia 2012; 60: 1455.
- 19. Liu J, Xiang L, Kan T. Composites Part A: Applied Science and Manufacturing 2015; 79: 146.
- 20. Nobe R, Qiu J, Kudo M, Zhang G. Polymer Engineering and Science 2020; 60: 1507.
- 21. Feng LJ, Yang ZT, Yu GC, Chen XJ, Wu LZ. Composite Structures 2018; 201: 845.
- 22. Wu Q, Ma L, Wu L, Xiong J. Composite Structures 2016; 153: 585.
- 23. Waddar S, Pitchaimani J, Doddamani M. Polymer Composites 2020; 41: 1774.
- 24. Schfer K, Nestler D, Jahn K. Jentzsch H, Kroll L. Key Engineering Materials 2019; 809, 277.
- 25. Smorygo O, Mikutski V, Marukovich A, Sadykov V, Bespalko Y, Stefan A, Pelin CE. Composite Structures 2018; 202: 917.
- 26. Wang Y, Ya B, Zhou B, Meng L, Zhang X. Journal of Applied Polymer Science 2019; 136: 47083.
- 27. Pandey A, Muchhala D, Kumar R, Sriram S, Venkat ANC, Mondal DP. Composites, 2020; 183: 107729.1.
- 28. Liu J, He Z, Liu J, Huang W. Thin-Walled Structures 2019; 145: 106387.1.
- 29. Kiyak B, Kaman MO. Journal of Composite Materials 2018; 53: 3093.
- 30. Kentaro S, Ryosuke M, Masahito U, Akira T, Yoshiyasu H. Composites Part A Applied Science & Manufacturing 2018; 113, 114.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-1a341018-118a-46a9-ac4a-2a40b44d53bc