Jump to content

Short fiber reinforced blends

From Wikipedia, the free encyclopedia

Short Fiber Reinforced Blends are partial case of ternary composites, i.e. composites prepared of three ingredients. In particular they can be considered as a combination of an immiscible polymer blend and a short fiber reinforced composite. These blends have the potential to integrate the easy processing solutions available for short fiber reinforced composites with the high mechanical performance of continuous fiber reinforced composites. The performance of these complex, ternary systems is controlled by their morphology.

Depending on the aspect ratio of the filler particles (length/diameter) and their compatibility to the polymeric components one can achieve different morphologies: (i) filler contained within the dispersed phase, (ii) within the matrix phase or (iii) at the interface between the two phases. If the fibers are sufficiently long and are preferentially wetted by the dispersed phase an effectively continuous network consisting of fibers welded together by the dispersed phase can be created. In such manner a pseudo-continuous fibrous reinforcement is spontaneously formed during the processing step and a composite material with better mechanical performance can be obtained.

See also

[edit]

References

[edit]
  • Malchev (2007). Short Fiber Reinforced Thermoplastic Blends (PhD thesis). Delft University of Technology.
  • Xanthos, M.; Narh, K. A. (1998). "Product design with glass fiber reinforced polymer blends, with potential applications in recycling". Polymer Composites. 19 (6): 768–780. doi:10.1002/pc.10151.
  • Inberg, J. P. F.; Hunse, P. H.; Gaymans, R. J. (1999). "Long fiber reinforcement of polypropylene/Polystyrene blends". Polymer Engineering & Science. 39 (2): 340–346. doi:10.1002/pen.11420.
  • Kulichikhin, V. G.; Parsamyan, I. L.; Lipatov, Yu. S.; Shumskii, V. F.; Getmanchuk, I. P.; Babich, V. F.; Postema, A. R. (1997). "Rheological, mechanical, and adhesive properties of thermoplastic-LCP blends filled by glass fibers". Polymer Engineering & Science. 37 (8): 1314–1321. doi:10.1002/pen.11777.
  • Tjong, S.C.; Meng, Y.Z. (1999). "Microstructural and mechanical characteristics of compatibilized polypropylene hybrid composites containing potassium titanate whisker and liquid crystalline copolyester". Polymer. 40 (26): 7275–7283. doi:10.1016/S0032-3861(99)00090-7.
  • Zheng, X.; Zhang, B.; Zhang, J.; Xue, Y.; He, J. (2003). "Flow Properties and Morphology of PC/LCP Blends Affected by the Addition of Glass Fiber and Resulted Mutual Influences". International Polymer Processing. 18: 3–11. doi:10.3139/217.1716. S2CID 136695679.
  • Maeng, Yoo Jae; Yoon, Byung Seon; Suh, Moon Ho; Lee, Suck Hyun; Im, Wan Bin (2000). "Effects of preferential encapsulation of glass fiber on the properties of ternary GF/PA/PP blends". Polymer Composites. 21: 41–50. doi:10.1002/pc.10163.
  • Venderbosch, R.W.; Peijs, T.; Meijer, H.E.H.; Lemstra, P.L. (1996). "Fibre-reinforced composites with tailored interphases using PPE/Epoxy blends as a matrix system". Composites Part A: Applied Science and Manufacturing. 27 (9): 895–905. doi:10.1016/1359-835X(96)00043-7.
  • Meijer, Han E H.; Venderbosch, Rob W.; Goossens, Johannes G P.; Lemstra, Piet J. (1996). "Processing of Thermoplastic Polymers Using Reactive Solvents". High Performance Polymers. 8: 133–167. doi:10.1088/0954-0083/8/1/010. S2CID 94444143.
  • Noh, C.-H; Yoon, B.S; Suh, M.H; Lee, S.H (2001). "Interfacial component of glass fiber in ternary composites of GF/PC/PP: Effect of the preferential encapsulation of glass fiber". Polymer. 42 (6): 2695–2700. doi:10.1016/S0032-3861(00)00633-9.
  • Laura, D.M.; Keskkula, H.; Barlow, J.W.; Paul, D.R. (2002). "Effect of glass fiber surface chemistry on the mechanical properties of glass fiber reinforced, rubber-toughened nylon 6". Polymer. 43 (17): 4673–4687. doi:10.1016/S0032-3861(02)00302-6.
  • Benderly, D.; Siegmann, A.; Narkis, M. (1996). "Structuring of binary PP/PA-6 blends and ternary PP/PA-6/GF blends". Polymer Composites. 17 (3): 343–352. doi:10.1002/pc.10620.
  • Fisher, I.; Siegmann, A.; Narkis, M. (2002). "The effect of interface characteristics on the morphology, rheology and thermal behavior of three-component polymer alloys". Polymer Composites. 23: 34–48. doi:10.1002/pc.10410.
  • Li, Chaoqin; Zhang, Yong; Zhang, Yinxi; Zhang, Changming (2002). "Rheological and Mechanical Properties of PC/HDPE/Glass fiber Composites". Polymers and Polymer Composites. 10 (8): 619–626. doi:10.1177/096739110201000805. S2CID 138431023.
[edit]