Recycling of carbon fibers in epoxy resin composites using supercritical 1-propanol
-
摘要: 研究了降解温度、反应时间和添加剂对超临界正丙醇中炭纤维增强环氧树脂基复合材料回收的影响。利用扫描电镜、热重、X射线光电子能谱、接触角和单丝拉伸对回收炭纤维进行表征。结果表明,随温度的升高,复合材料降解速率加快,但回收炭纤维力学性能略微降低。随反应时间的延长,复合材料降解速率降低,回收炭纤维力学性能降低。1%质量含量的KOH能明显提高复合材料的回收效率。伴随KOH含量增加,复合材料降解速率没有明显提高,而使回收炭纤维力学性能变差。合适的反应条件对回收具有清洁表面、良好热稳定性和力学性能完好保留的炭纤维至关重要。回收炭纤维表面化学的微弱变化使回收炭纤维同环氧树脂的接触角略增加。超临界正丙醇是一种回收炭纤维复合材料的有效方法。Abstract: The effects of degradation temperature, reaction time and additive on the efficiency of the recovery of carbon fibers from their epoxy resin composites by supercritical 1-propanol were investigated.The recycled carbon fibers were characterized using SEM, TGA, XPS, contact angle measurements and single fiber tensile strength tests.Results indicated that the rate of decomposition of the resin increased, but the mechanical properties of the recycled fibers decreased slightly with temperature.The decomposition rate of the resin and tensile strength of the recycled carbon fibers decreased with reaction time.1 wt% of KOH additive in 1-propanol improved the recovery efficiency significantly.When the KOH concentration was increased beyond 1 wt% there was no obvious increase in the decomposition rate and the mechanical properties of the recycled fibers became worse.There were slight changes in the surface chemistry of the recycled carbon fibers and their contact angle with epoxy resin.Supercritical 1-propanol is an excellent recycling technology for carbon fibers in epoxy resin composites.
-
Key words:
- Carbon fiber /
- Recycling /
- Supercritical 1-propanol /
- Epoxy resin /
- Composites
-
Yang Y H, Pan Y X, Feng Z H, et al.Evaluation of aerospace carbon fibers[J].New Carbon Mater, 2014, 29(3):161-168. Liu Y, Deng T S, Lu C X, et al.Recovery of carbon fibers from carbon fiber/epoxy composites by epoxy degradation with concentrated zinc chloride in ethanol[J].New Carbon Mater, 2014, 29(5):363-368. Liu X Y, Song Y, Li C M, et al.Effects of carbon nanotubes grafted on a carbon fiber surface on their interfacial properties with the matrix in composites[J].New Carbon Mater, 2012, 27(6):455-461. Leste E, Kingman S, Wong K H, et al.Microwave heating as a means for carbon fibre recovery from polymer composites:a technical feasibility study[J].Mater Res Bull, 2004, 39(10):1549-1556. Liu Y Y, Meng L H, Huang Y D, et al.Recycling of carbon/epoxy composites[J].J Appl Polym Sci, 2004, 94(5):1912-1916. Pickering S J.Recycling technologies for thermoset composite materials-current status[J].Composites Part A, 2006, 37(8):1206-1215. Pimenta S, Pinho S T.Recycling carbon fibre reinforced polymers for structural applications:Technology review and market outlook[J].Waste Manage, 2011, 31(2):378-392. Palmer J, Ghita O R, Savage L, et al.Successful closed-loop recycling of thermoset composites[J].Composites Part A, 2009, 40(4):490-498. Nahil M A, Williams P T.Recycling of carbon fibre reinforced polymeric waste for the production of activated carbon fibres[J].J Anal Appl Pyrol, 2011, 91(1):67-75. Wong K H, Pickering S J, Rudd C D.Recycled carbon fibre reinforced polymer composite for electromagnetic interference shielding[J].Composites Part A, 2010, 41(6):693-702. Pinero-Hernanz R, Garcia-Serna J, Dodds C, et al.Chemical recycling of carbon fibre composites using alcohols under subcritical and supercritical conditions[J].J Supercrit Fluids, 2008, 46(1):83-92. Liu Y Y, Shan G H, Meng L H.Recycling of carbon fibre reinforced composites using water in subcritical conditions[J].Mater Sci Eng A, 2009, 520(1-2):179-183. Palmer J, Savage L, Ghita O R, et al.Sheet moulding compound(SMC) from carbon fibre recyclate[J].Composites Part A, 2010, 41(9):1232-1237. Turner T A, Pickering S J, Warrior N A.Development of recycled carbon fibre moulding compounds-Preparation of waste composites[J].Composites Part B, 2011, 42(3):517-525. Cunliffe A M, Jones N, Williams P T.Recycling of fibre-reinforced polymeric waste by pyrolysis:thermo-gravimetric and bench-scale investigations[J].J Anal Appl Pyrol, 2003, 70(2):315-338. Jiang G, Pickering S J, Walker G S, et al.Soft ionisation analysis of evolved gas for oxidative decomposition of an epoxy resin/carbon fibre composite[J].Thermochim Acta, 2007, 454(2):109-115. Jiang G, Pickering S J, Walker G S, et al.Surface characterisation of carbon fibre recycled using fluidised bed[J].Appl Surf Sci, 2008, 254(9):2588-2593. Yip H L H, Pickering S J, Rudd C D.Characterisation of carbon fibres recycled from scrap composites using fluidised bed process[J].Plast Rubber Compos, 2002, 31(6):278-282. Hyde J R, Lester E, Kingman S, et al.Supercritical propanol, a possible route to composite carbon fibre recovery:A viability study[J].Composites Part A, 2006, 37(11):2171-2175. Gersifi K El, Durand G, Tersac G.Solvolysis of bisphenol a diglycidyl ether/anhydride model networks[J].Polym Degrad Stabil, 2006, 91(4):690-702. Bai Y, Wang Z, Feng L.Chemical recycling of carbon fibers reinforced epoxy resin composites in oxygen in supercritical water[J].Mater Des, 2010, 31(2):999-1002. Jiang G, Pickering S J, Lester E H, et al.Characterisation of carbon fibres recycled from carbon fibre/epoxy resin composites using supercritical 1-propanol[J].Compos Sci Technol, 2009, 69(2):192-198. Yan H, Lu C X, Jing D Q, et al.Chemical degradation of amine-cured DGEBA epoxy resin in supercritical 1-propanol for recycling carbon fiber from composites[J].Chinese J Polym Sci, 2014, 32(11):1550-1563. Yan H, Lu C X, Jing D Q, et al.Chemical degradation of TGDDM/DDS epoxy resin in supercritical 1-propanol:Promotion effect of hydrogenation on thermolysis[J].Polym Degrad Stabil, 2013, 98(12):2571-2582. -
下载:
点击查看大图
图(1)
计量
- 文章访问数: 987
- HTML全文浏览量: 291
- PDF下载量: 679
- 被引次数: 0
