为开发新型耐高温和耐低温材料提供理论依据,对同一发泡率、不同纤维体积分数和同一纤维体积分数、不同发泡率的锦纶短纤维增强发泡橡胶复合材料(以下简称SFRFRC)在213~398 K温度下的压缩性能进行测试.结果表明:在213 K时,SFRFRC的压缩性能发生明显变化,已经由高弹态转变为玻璃态,而玻璃化转变温度在213~233 K之间.纤维体积分数和发泡率均对SFRFRC的耐低温性能有很大影响.短纤维的添加和适当改变发泡率都明显改善了SFRFRC在低温下的压缩性能.在定160 N和5 mm条件下,同一发泡率、不同纤维体积分数的SFRFRC,压缩永久变形随着纤维体积分数的增加而呈指数下降;而5%纤维体积分数、不同发泡率的SFRFRC,压缩永久变形随着发泡率的增大而增大.
To provide a theoretical basis for developing heat-resisting material and cryogenic temperature material, the tensile properties of nylon short fiber reinforced foam rubber composites (SFRFRC)) with the identical spongy rate but different short fiber volume fractions and the identical short fiber volume fraction but differently spongy rates were tested at 213~398 K. The results show that the compressive properties of SFRFRC changed obviously from high-elastic state to glass state at 213 K, and the glass transition temperatures are in the range of 213~233 K. Short fiber volume fraction and spongy rate have a significant effect on the low-temperature-resistant properties of the SFRFRC. It can significantly improve the compressive properties of SFRFRC by adding the short fiber volume fraction and changing appropriately the spongy rate at low temperatures. Under conditions of 160 N and 5 mm, the permanent compression set of SFRFRC with the identical spongy rate but different short fiber volume fractions decreases with the short fiber volume fraction increasing, and the permanent compression set of SFRFRC with 5% short fiber volume fraction with different spongy rates increases with the spongy rate increasing.
参考文献
| [1] | 朱玉俊.弹性体的力学改性-填充补强及共混[M].北京:科学技术出版社,1992:184-236.Zhu Yujun.Mechanics modification of elastomer-filling,reinforcing and blending[M].Beijing:Science & Technology Press,1992:184-236. |
| [2] | Martins Agnes F,De Meneses Sergio M,Visconte Leila L Y,et aL.Mechanical and dynamical mechanical properties of chloroprene rubber and cellulose Ⅱ composites[J].J Appl Polym Sci,2004,92(4):2425-2430. |
| [3] | Ismail H,Rosnah N,Rozman H D.Curing characteristics and mechanical properties of short oil palm fibre reinforced rubber composites[J].Polymer,1997,38(16):4059-4064. |
| [4] | Mathew L,Joseph R.Mechanical properties of short-isora-fiber-reinforced natural rubber composites:Effects of fiber length,orientation and loading,alkali treatment,and bonding agent[J].J Appl Polym Sci,2007,103(3):1640-1650. |
| [5] | 曾铮,任文坛,徐驰,等.纤维素短纤维补强天然橡胶复合材料性能的研究[J].特种橡胶制品,2008,29(1):15-19.Zeng Zheng,Ren Wentan,Xu Chi,et al.Study on natural rubber filled with short-cellulose fiber[J].Special Purpose Rubber Products,2008,29(1):15-19. |
| [6] | 肖春金,田明,张立群.硅酸盐纳米纤维增强橡胶复合材料的机构与性能[J].复合材料学报,2007,24(2):79-85.Xiao Chunjin,Tian Ming,Zhang Liqun.Structure and properties of silicate nano-fiber/rubber composites[J].Acta Materiae Compositae Sinica,2007,24(2):79-85. |
| [7] | 刘洪涛,周彦豪,张兴华,等.有机短纤维增强橡胶复合材料研究进展[J].高分子材料科学与工程,2004,20(3):41-45.Liu Hongtao,Zhou Yanhao,Zhang Xinghua,et al.Some new advances in research of short organic fiber-reinforced rubber composite[J].Polymeric Materials Science and Engineering,2004,20(3):41-45. |
| [8] | 关长斌,赵玉成,陆文明.CG混合纤维/橡胶复合材料的黏弹件[J].复合材料学根,2008,25(1):75-79.Guan Changbin,Zhao Yucheng,Lu Wenming.Viscoelasticity of CG mixed fiber/rubber composite[J].Acta Materiae Compositae Sinica,2008,25(1):75-79. |
| [9] | 林桂,刘力,张建春,等.纤维增强聚合物发泡体的研究进展[J].中国塑料,2002,16(1):7-11.Lin Gui,Liu Li,Zhang Jianchun,et al.Research advancement of fiber reinforced foam polymers[J].China Plastics,2002,16(1):7-11. |
| [10] | 林桂,张建春,张秀娟,等.短纤维对橡胶发泡复合材料增强机理的细观分析[J].橡胶工业,2004,51(1):5-13.Liu Gui,Zhang Jianchun,Zhang Xiujuan,et al.Study on reinforcement mechanism of short fiber/rubber foam composite[J].China Rubber Industry,2004,51(1):5-13. |
| [11] | 林桂,刘力,张建春,等.短纤维/橡胶发泡复合材料的微观结构及拉伸破坏机理[J].橡胶工业,2003,50(1):10-14.Liu Gui,Liu Li,Zhang Jianchun,et al.Microstructure and tensile failure mechanism of short fiber/rubber foam composite[J].China Rubber Industry,2003,50(1):10-14. |
| [12] | Kedowaki R,Okumura K.Fiber-reinforced expendable composite resin material for molding method thereof:JPN,JP 10 168 206[P].1998-06-23. |
| [13] | Nomura M,Wada K.Production of fiber reinforced thermoplastic resin lightweight molded product:JPN,JP 10 138 276[P].1998-05-26. |
| [14] | Ghaus R.Foaming of PS/wood fiber composites using moisture as a blowing agent[J].Polym Eng Sci,2000,40(10):2124-2132. |
| [15] | Matuana L M,Park C B,Balatinecz J J.Cell morphology and property relationship of microcellular foamed PVC/wood-fiber composites[J].Polym Eng Sci,1998,38(11):1862-1872. |
| [16] | 张建春,陈绮梅,梁高勇.一种含短纤维的海绵橡胶:中国,1 367 731[P].2002-10-30. |
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