冷却方式对过冷压制PEN单聚合物复合材料的影响

Influence of Cooling Mode on the Properties of Polyethylene Naphthalate Single-Polymer-Composites Produced by Undercooling Compaction

下载PDF

导出

摘要为研究冷却方式对聚萘二甲酸乙二醇酯(PEN)单聚合物复合材料(SPC)的影响,分别采用了随机冷却、骤冷和自然冷却的方式,过冷压制成型了PEN SPC样品;使用DSC热分析法确定了冷却速度对PEN基体的影响;使用万能试验机比较了PEN SPC样品的力学性能.研究结果表明:随机冷却的方式得到的PEN SPC的拉伸强度最小,拉伸模量最高,是由冷却速度慢导致结晶引起的;骤冷的方式得到的拉伸模量最低,是由冷却速度过快导致无定形引起的;自然冷却方式得到的拉伸强度最高,是由于适中的冷却速度有利于基体渗透. In order to study the influence of cooling mode on the properties of Polyethylene naphthalate （PEN） single-polymer-composites （SPC）, stochastic cooling mode, shock cooling and natural cooling were used in the undercooling compaction of PEN SPC. DSC thermal analysis was used to determine the effects of cooling rate on the PEN matrix, universal testing machine was used to determine the tensile properties of the PEN SPC. Results show that the maximum strength can be obtained by the stochastic cooling mode which can cause crystalline with slow cooling rate, the minimum modulus is obtained by the shock cooling mode which can cause amorphous material with faster cooling rate, the maximum tensile strength is obtained by the natural cooling mode which benefits the infiltrating of matrix clue to the suitable cooling rate.

作者王建陈晋南代攀

机构地区北京理工大学化工与环境学院

出处《北京理工大学学报》 EI CAS CSCD 北大核心 2015年第6期652-655,共4页 Transactions of Beijing Institute of Technology

基金国家自然科学基金项目资助(51403019)

关键词冷却过冷聚萘二甲酸乙二醇酯(PEN) 单聚合物复合材料(SPC) cooling undercooling polyethylene naphthalate （PEN） single-polymer-composites （SPC）

分类号 TQ327.9 [化学工程—合成树脂塑料工业]

引文网络
相关文献

参考文献8

1Matabola K P, De Vries A R, Moolman F S, et al. Single polymer composites: a review[J]. Journal of Material Science, 2009,44(23) :6213 - 6222.
2Hine P J, Ward I M, Olley R H, et al. The hot compaction of high modulus melt-spun polyethylene fibers[J]. Journal of Material Science, 1993, 28 (2) : 316 - 324.
3Lacroix F V, Loos J, Lu H, et al. Morphological inves- tigations of polyethylene fibre reinforced polyethylene [J]. Polymer, 1999,40(4) :843-847.
4Hine P J, Olleyy R H, Ward I M. The use of interleaved films for optimising the production and properties of hot compacted, self reinforced polymer composites [J]. Composites Science and Technology, 2008,68(6) :1413- 1421.
5Hine P J, Astruc A, Ward I M. Hot compaction of po- lyethylene naphthalate [J]. Journal of Applied Polymer Science, 2004,93(2) :796 - 802.
6Dai P, Zhang W, Pan Y T, et al. Processing of single polymer composites with undercooled polymer melt [J]. Composites: Part B, 2011,42(5) :1144-1150.
7代攀,陈晋南.热压法制备聚丙烯单聚合物复合材料[J].高分子材料科学与工程,2012,28(4):110-113. 被引量：5
8王建,陈晋南,代攀.PEN单聚合物复合材料的热压制备工艺与性能[J].材料科学与工艺,2012,20(4):104-107. 被引量：2

二级参考文献11

1CAPIATI N J, PORTER R S. The concept of one poly- mer composites modeled with high density polyethylene [ J ]. Journal of Material Science, 1975, 10(10) :1671 - 1677.
2HINE P J, WARD I M, OLLEY R H, et al. The hot compaction of high modulus melt-spun polyethylene fi- bers[ J ]. Journal of Material Science, 1993,28 ( 2 ): 316 - 324.
3LACROIX F V, LOOS J, LU H,et al. Morphological in- vestigations of polyethylene fibre reinforced polyethy- lene[ J]. Polymer, 1999,40 (4) :843 - 847.
4HINE P J,OLLEY R H,WARD I M. The use of inter- leaved films for optimising the production and proper- ties of hot compacted, self reinforced polymer compos- ites[J]. Composites Science and Technology,2008,68 (6) :1413 - 1421.
5HINE P J,ASTRUC A,WARD I M. Hot compaction of poiyethylene naphthalate [ J ]. Journal of Applied Poly- mer Science, 2004,93 (2) :796 - 802.
6MATABOLA K P, DE VRIES A R, MOOLMAN F S,et al. Single polymer composites : a review [ J ]. Journal of Material Science ,2009,44( 23 ) :6213 - 6222.
7Cohen Y,Rein D M,Vaykhansky L E.A novel composite based onultra-high molecular-weight polyethylene[].ComposSciTech-nol l.997
8A Pegoretti,A Zanolli,C Migliaresi.Preparation and tensile mechanical properties of unidirectional liquid crystalline single-polymer composites[].Composites Science and Technology.2006
9B Alcock,NO Cabrera,NM Barkoula,J Loos,T Peijs. Compos Part A . 2006
10Teishev A,Incardona S D,Migliaresi C,et al.PolyethyleneFibres-Polyethylene Matrix Composites:Preparation and Physi-cal Properties[].Journal of Applied Polymer Science.1993

共引文献5

1杨娟亚,楼添良,陈雪菲,秦永瑞,周明生,胡国樑.熔喷/针刺复层型透水模板布透排水性能的研究[J].现代纺织技术,2013,21(4):15-18. 被引量：1
2杨娟亚,余向琪,毛凤鸣,陈俊良,胡国樑.聚丙烯纺粘/针刺型模板布成型工艺与性能[J].纺织学报,2014,35(7):67-73. 被引量：1
3王遂,彭炯,王建.UHMWPE纤维增强LDPE复合材料的界面形态研究[J].材料科学与工艺,2017,25(1):92-96. 被引量：3
4曹汉杰,张曼玉,田小永,刘腾飞,李涤尘.连续纤维自增强复合材料3D打印及其回收性能研究[J].机械工程学报,2022,58(23):188-195. 被引量：2
5曹刚,李明昊,左治江,张逸.纤维预紧力对聚氨酯同质增强复合材料力学性能的影响[J].塑料科技,2024,52(6):67-71.

1孙玉璞,徐英,陈方生.聚丙烯球晶的研究[J].山东工业大学学报,2000,30(4):353-358. 被引量：2
2尹翠玉,沈新元.超有光聚酯切片的热性能[J].纺织学报,2005,26(5):86-87. 被引量：4
3魏俊富,郑帼,齐鲁.聚酯切片中的粉末研究[J].合成纤维工业,1997,20(5):25-27. 被引量：3
4董知之,张志英,陈莉,王曙光,印明明.乙基纤维素修饰PET纤维的结晶性能[J].高分子材料科学与工程,2009,25(2):81-84. 被引量：1
5李伟,张兴祥,由明.悬浮聚合法制备相变材料微/纳胶囊[J].高分子材料科学与工程,2010,26(2):36-39. 被引量：15
6茅靳丰,马天宝,李金田.三水醋酸钠相变储能性能的实验研究[J].洁净与空调技术,2009(3):12-14. 被引量：3
7胡亚丽,张续柱.GFRP平衡管树脂基体配方的研究[J].华北工学院学报,2001,22(1):12-15.
8李凌峰.挤出工序胎面胶焦烧原因分析及解决措施[J].橡胶科技市场,2010,8(5):16-17.
9代攀,陈晋南.热压法制备聚丙烯单聚合物复合材料[J].高分子材料科学与工程,2012,28(4):110-113. 被引量：5
10日研制出“新型超级橡胶”[J].橡胶参考资料,2011(2):9-9.

北京理工大学学报

2015年第6期

浏览历史

内容加载中请稍等...

冷却方式对过冷压制PEN单聚合物复合材料的影响

参考文献8

二级参考文献11

共引文献5

相关作者

相关机构

相关主题

浏览历史