建立了热塑性树脂熔体渗透浸渍纤维的理论模型,由此表征了工艺参数、熔体黏度和纤维结构对浸渍时间的影响规律.结果表明,熔融尼龙树脂复合材料的理论纤维体积率很难达到70%以上.采用原位聚合方法能使尼龙树脂熔体黏度降低几个数量级,并能提高树脂基体熔体对纤维的浸渍效率.
A mathematical model of the thermoplastic resin impregnating the fibers is established.And this model can effectively reveal the regularity of the impregnation time affected by resins,process parameters and fiber structure According to the results calculated from the model,the theoretical maximum fiber volume content of the melt Nylon 6 composite is difficult to exceed 70%,and its impregnation time is still long even though the resin is processed by viscosity reduction.As the monomer has a lower viscosity compared with the melt Nylon 6,the impregnation efficiency can be greatly improved by the in situ polymerization.
参考文献
| [1] | Marissen R.;Th L. .Technology for rapid impregnation of fibre bundles with a molten thermoplastic polymer[J].Composites science and technology,2000(10):2029-2034. |
| [2] | 金国珍.工程塑料[M].北京:化学工业出版社,2001 |
| [3] | Caymans R J;Wevers E .Impregnation of a glass fibre roving with apolypropylene melt in a pin assisted process[J].Composites Part A:Applied Science and Manufacturing,1998,29(5-6):633. |
| [4] | Byung Soon Yoon;Suck Hyun Lee;Moon Ho Suh .Continuous glass-fiber reinforced nylon 6 by using a new Impregnation die[J].Polymer Composites,1997,19(05):656. |
| [5] | Tai-Shung Chung;Summit;Howard Furst .Process for preparing tapes from thermoplastic polymers and carbon fibers[P].US,4588538,1998-05-13. |
| [6] | Edwin K Bi nnersley;Willian H Kracper .Fiber reirfforced thermoplastic material[P].US,4640861,1998-02-03. |
| [7] | Leterrier Y;Sell G .Formation and elimination voids during the processing of matrix composies[J].Polymer Composites,1994,15(02):101. |
| [8] | Wakeman M D et al.Compression moulding of glass and polypropylene composites for opt imized macro-and micromechanical properties-2 Glass-mat reinforced thermoplastics[J].Compos Sci Teehn,1999,59:709. |
| [9] | Klinkmuller V et al.A new model for impregnation mechanisms in diferent GF/PPcommin gled yams[J].Applied Composite Materials,1995,1:351. |
| [10] | Wakeman M D et al.Compression moulding of glass and polypropylene composites for Optimized macro-and micromechanical properties-1 commingled glass and polypropytene[J].Composites Science and Technology,1998,58:1879. |
| [11] | Hartness T .Thermoplastic powder technology for advanced composite materials[J].J Therm Oplastic Compos Mater,1988,1:210. |
| [12] | N. D. Ngo;K. K. Tamma .Complex three-dimensional microstructural permeability prediction of porous fibrous media with and without compaction[J].International Journal for Numerical Methods in Engineering,2004(10):1741-1757. |
| [13] | Gibson A G;Manson J A .Impregnation technology for thermoplastic matrix composites[J].Composites Manufacturing,1992,3(04):223. |
| [14] | Van West B P;Pipes R B .The consolidation of commingled thermoplastic fabrics[J].Polymer Composites,1991,12(06):417. |
| [15] | Lin Ye;Klaus Friedrich;Joachim Kastel.Consolida tion of nidirectional CF/PEEK composites from commingled yarn prepreg[J].Composites Science and Technology,1995(04):349. |
| [16] | Astrom B T;Pipes R B;Advani S G.On flow through aligned fiber beds and its applicati on to composites processing[J].Journal of Composite Materials,1992(09):1351. |
| [17] | Gutowski T G et al.Consolidation experiments for laminate composites[J].Journal of Composite Materials,1987,21:650. |
| [18] | Gutowski T G.Advanced composites Manufacturing[M].Cambridge:A Wiley-Interscience Publication Materials,1997:393. |
| [19] | Li Min et al.A simple method for the measurement of com paction and corresponding transverse permeability of composite prepares[J].Polymer Composites,2007,28(01):61. |
| [20] | Sridhar Ranganathan.A generalked model for the transverse fluid permeability in unidirectional fibrous media[J].Polymer Composites,1996(02):222. |
| [21] | 郑睿,赵耀明,严玉蓉,李维贤.玻纤增强PTT复合材料流变性能研究[J].塑料工业,2006(12):19-22. |
| [22] | 郑孝霞 .连续纤维增强热塑性树脂基加固片材的研制[D].东南大学,2005. |
| [23] | Dava R S;Loos A C;方征平;沈烈.高分子复合材料加工工程[M].北京:化学工业出版社,2004:10. |
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