采用非织造结合热压成型工艺制备了亚麻落麻纤维增强聚乳酸(PLA)基可降解复合材料(亚麻落麻/PLA),研究了纤维体积分数对材料拉伸强度的影响,并利用Kelly-Tyson拉伸强度预测模型及相关修正理论,提出了非连续植物纤维增强可降解复合材料(D-NFRBC)强度预测模型,该模型考虑了纤维长度、取向角、直径、强度概率分布及材料界面剪切强度与材料中纤维临界长度、纤维极限拉伸强度三者间制约关系对复合材料强度的影响.结果表明:亚麻落麻/PLA拉伸强度在纤维体积分数为39.6%时达到最大,应用本文建立的强度预测模型所得亚麻落麻/PLA拉伸强度预测值与实验值吻合良好.
参考文献
| [1] | Shibata Shinichi,Fukumoto Isso,Cao Yong.Effects of fiber compression and length distribution on the flexural properties of short kenaf fiber-reinforced biodegradable composites[J].Polym Compos,2005,1002(10):202-05. |
| [2] | Shibata Shinichi,Pukumoto Isao.Prediction of flexural modulus of the biodegradable composites made from bamboo and kenaf fibers[J].Key Engineering Materials,2007,334-335:53-56. |
| [3] | 曹勇,合田公一,吴义强.洋麻纤维增强全降解复合材料的制备及其弯曲模量[J].复合材料学报,2007,24(3):28-34.Cao Yong,Goda Koichi,Wu Yiqiang.Preparation and flexural modulus of biodegradable composites reinforced with kenaf fibers[J].Acta Materiae Compositae Sinica,2007,24(3):28-34. |
| [4] | 曹勇,柴田信一.甘蔗渣的碱处理对其纤维增强全降解复合材料的影响[J].复合材料学报,2006,23(3):60-66.Cao Yong,Shibata Shinichi.Effect of alkali treated bagasse fibres on fibre-reinforced biodegradable composite[J].Acta Materiae Compositae Sinica,2006,23(3):60-66. |
| [5] | Mohanty A K,Wibowo A,Misra M,Drzal L T.Effect of process engineering on the performance of natural fiber reinforced cellulose acetate biocomposites[J].Composites Part A,2004,35(3):363-370. |
| [6] | Alvares V,Vazquez A,Bernal C.Effect of microstructure on the tensile and fracture properties of sisal fiber/starch-based composite[J].Journal of Composite Materials,2006,40 (1):21-35. |
| [7] | Averous L,Digabel F Le.Properties of biocomposites based on lignocellulosic fillers[J].Carbohydrate Polymers,2006,66:480-493. |
| [8] | Kim Eung Gu,Kim Beom Soo,Kim Dae Su.Physical properties and morphology of polycaprolactone/starch/pineleaf composites[J].Journal of Applied Polymer Science,2007,103:928-934. |
| [9] | 万春杰,余剑英,南文唤,刘恩苒.苎麻纤维增强复合材料的工艺与性能研究[J].化学与生物工程,2006,23(8):18-20.Wan Chunjie,Yu Jianying,Nan Wenhuan,Liu Enran.Study on processing and properties of ramie fibre reinforced poly (propylene carbonate) matrix composite materials[J].Chemistry & Bioengieering,2006,23(8):18-20 |
| [10] | 袁利华,韩建,徐国平.可降解PLA/黄麻新型复合材料的制备与力学性能[J].浙江理工大学学报,2007,24(1):28-31.Yuan Lihua,Han Jian,Xu Guoping.Processing technics and mechanical behaviors of biodegradable PLA/Jute fiber composites[J].Journal of Zhejiang Sci-Tech University,2007,24(1):28-31. |
| [11] | ASTM.D3039/D3039M-00 Standard test method for tensile properties of polymer matrix composite material[S].West Conshohocken,United States:ASTM International,2006:1-12. |
| [12] | 中华人民共和国国家标准.GB 1447-83玻璃纤维增强塑料拉伸性能试验方法[S].北京:国家标准局,1983:230-235. |
| [13] | 中华人民共和国国家标准.GB/T 1040-92塑料拉伸性能测试方法[S].北京:国家技术监督局,1992:24-31. |
| [14] | 中华人民共和国国家标准.GB 3357-82单向纤维增强塑料层间剪切强度试验方法[S].北京:国家技术监督局,1982:529-530. |
| [15] | Garkhail S K,Heijenrath R W H,Peijs T.Mechanical properties of natural-fibre-mat-reinforced thermoplastics based on flax fibres and polypropylane[J].Applied Composite Materials,2000(7):351-372. |
| [16] | Fukuda H,Chou T W.A probabilistic theory of the strength of short-fiber composites with variable fiber length and orientation[J].Journal of Material Science,1982,17:1003-1011. |
| [17] | Pipes R B,Mccullough R L,Taggart G.Behavior of discontinuous fiber composites:Fiber orientation[J].Polymer Composite,1982,3(1):34. |
| [18] | Sanomura Yukio,Hayakawa K,Mizuno M.Effects of process conditions on Young's modulus and strength of extrudate in short-fiber-reinforced polypropylene[J].Polym Compos,2007,1002 (10):30-35. |
| [19] | Coda Koichi,Yoshiyuki Kitamura,Junji Ohgi.Green composites reinforced with bamboo fibers[C]// 2nd International Workshop on "Green" Composites.Yamaguchi,Japan:Press of Yamaguchi University,2004:96-100. |
| [20] | 纺织工业科学技术发展中心.GB 5887-86中国纺织标准汇编--麻纺织卷[S].北京:中国标准出版社,2001:218-222. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%