用钉挂预埋多功能界面活化剂(MFIAA)的PET(PET-MFIAA)与PP共混-挤出-拉伸,制备了PET-MFIAA/PP原位成纤复合材料,采用扫描电镜、偏光显微镜观察和力学性能测定的方法,研究了PET-MFIAA/PP的PET微纤形态、试样断面形态及力学性能,并与PET/PP、MFIAA/PET/PP两种原位成纤复合材料进行对比.结果表明:PET-MFIAA/PP PET微纤与PP基体间具有强的相互作用,PET微纤呈粗细不均匀、凹凸不平的异形形态及柔性界面等结构特征,形成了强的界面结合,其刚性、韧性均比纯PP明显提高,含7.00%MFIAA的PET-MFIAA/PP复合材料的拉伸屈服应力、弯曲弹性模量和悬臂梁缺口冲击强度分别达到了纯PP的1.04倍、1.23倍和1.79倍.
参考文献
| [1] | 沈经纬,黄文艺,左胜武,全成子.PP/PET原位成纤复合材料的增强效应[J].复合材料学报,2004,21(4):33-39.Shen Jingwei,Huang Wenyi,Zuo Shengwu,Quan Chengzi.Reinforcing effect of PP/PET in-situ fiberized composites[J].Acta Materiae Compositae Sinica,2004,21(4):33-39. |
| [2] | Jayanarayanan K,Venkateshwar A,Joseph Kuruvilla,Thomas Sabu.Morphology and thermal properties of in situ composites[C]// Annual Technical Conference-ANTEC,Conference Proceedings.Dalian:Dalian University of Technology Press,2006:200-203. |
| [3] | 侯静强,周晓东,周雷行,王秋峰.增容作用对PET在PP中原位成纤及增强效果的影响[J].塑料科技,2006,34(3):24-27.Hou Jingqiang,Zhou Xiaodong,Zhou Leixing,Wang Qiufeng.Influencing effects of compatibilization on in-situ fibrillation and reinforcement of PET in PP[J].Plastics Science and Technology,2006,34(3):24-27. |
| [4] | Taepaiboon Pattama,Junkasem Jirawut,Dangtungee Rapeephun,Amornsakchai Taweechai,Supaphol Pitt.In situ microfibrillar reinforced composites of isotactic polypropylene/recycled poly (ethylene terephthalate) system and effect of eompatibilizer[J].Journal of Applied Polymer Science,2006,102(2):1173-1181. |
| [5] | 李忠明,杨鸣波,冯建民.聚烯烃/聚对苯二甲酸乙二醇酯原位微纤增强复合材料的制备方法及装置:中国,CN 1346845A[P].2002-05-01.Li Zhongming,Yang Mingbo,Feng Jianmin.Preparation method and equipment of polyolefine/poly poly (ethylene terephthalate) in situ fiberized composites:China,CN 1346845A[P].2002-05-01. |
| [6] | Friedrich K,Evstatiev M,Fakirov S,Evstatiev O,Ishii M,Harrass M.Microfibrillar reinforced composites from PET/PP blends:Processing,morphology and mechanical properties[J].Composites Science and Technology,2005,65(1):107-116. |
| [7] | 王经武.塑料改性技术[M].北京:化学工业出版社,2004:74-98;618-734.Wang Jingwu.Plastics modification technology[M].Beijing:Chemical Industry Press,2004:74-98; 618-734. |
| [8] | Zhu Y T,Valdez J A,Shi N,et al.Influence of reinforcement morphology on the mechanical properties of short-fiber composites[C]// Zhou S J,ed.TMS Annual Meeting,Processing of Metals and Advanced Materials:Modeling,Design and Properties.Warrendale,PA:TMS,1998:251-259. |
| [9] | Oehiai Shojiro,Tanaka Mototsugu,Hojo Masaki.Effects of residual stress and interracial frictional shear stress on interfacial debonding at notchtip in two-dimensional unidirectional composite[J].Composite Interfaces,1998,5(5):437-460. |
| [10] | Chaplean N,Favis B D.Droplet/fibre transitions in immiscible polymer blends generated during melt processing[J].Journal of Materials Science[J],1995,30(1):142-150. |
| [11] | 王小娟,代佳丽,刘续峰,等.架桥剂配比对PET/EN-MFMB的化学结构及力学性能的影响[J].塑料工业,2007,35(11):29-32.Wang Xiaojuan,Dai Jiali,Liu Xufeng,et al.Effect of the ratios of the bridge-agents on the chemical structure and mechanical properties of PET/EN-MFMB[J].China Plastics Industry,2007,35(11):29-32. |
| [12] | Jang B Z,Lieu Y K,Chung W C.Controlled energy dissipation in fibrous composites Ⅰ:Controlled delamination[J].Polymer Composites,1987,8(2):94-102. |
| [13] | Nairn John A.Thermoelastic analysis of residual stresses in unidirectional,high-performance composites[J].Polymer Composites,1985,6(2):123-130. |
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