共查询到19条相似文献,搜索用时 125 毫秒
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向聚苯乙烯(PS)中引入磺酸基团可以有效地改善PS与一种热致液晶聚合物(LCP)之间的相容性.用溶液共混的方法制备了PS和磺化聚苯乙烯(HSPS)与LCP的共混物.用FTIR以及红外光谱的合成技术对LCP共混体系进行了表征.共混物中组分聚合物特征吸收的位置和谱图的形状表明在LCP与PS分子间没有相互作用发生,而在LCP与HSPS分子间则存在较强的相互作用.谱图差减技术确认了LCP分子中CO与CO基团和HSPS中的磺酸基团参与了相互作用,使得这些基团的特征吸收发生了偏移. 相似文献
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全芳香族热致液晶聚合物与热塑性树脂聚砜的原位复合材料 总被引:4,自引:0,他引:4
用自制的四种全芳香族热致液晶聚合物BP LCP、BPM LCP、BPA LCP、BPS LCP与热塑性树脂聚砜(PSF)熔融共混,制备了一系列原位复合材料.研究了所得材料的微观形态、热性能、力学性能等,结果显示:四种液晶聚合物中,BP LCP,BPS LCP在所用加工条件下可在PSF中取向成纤,而且这两种共混物断面上存在皮 核效应;BPM LCP和BPA LCP未成纤,均以球状存在于PSF中.这四种液晶聚合物与PSF的相容性较差,各共混物的Tg均分别接近于二纯组分的Tg值,SEM照片上明显的相界面也能说明以上问题.液晶聚合物对PSF有增强作用,但增强效果不很显著,这可能是二者相容性较差所致 相似文献
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热致液晶聚合物的可纺性与其在基体树脂中的成纤 总被引:6,自引:1,他引:6
热致液晶聚合物的可纺性与其在基体树脂中的成纤何嘉松,张洪志(中国科学院化学研究所工程塑料国家重点实验室北京100080)关键词热致液晶聚合物,熔融可纺性,高分子共混物,原位复合,亚微米增强用热致液晶聚合物(TLCP)对热塑性树脂产生亚微米级增强作用的... 相似文献
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聚丙烯共混物一步法反应共混增容的研究 总被引:3,自引:0,他引:3
研究了影响聚丙烯/(丙烯腈 苯乙烯)共聚物(PP/AS)合金反应挤出生成的各项因素,发现在过氧化二异丙苯(DCP)存在的条件下进行反应共混可以发生接枝反应,生成PP与AS的相互接枝物.接枝物的生成显著地细化了分散相粒子,改善了合金相形态.为抑制反应共混过程中聚丙烯的降解,同时促进接枝反应,在PP/AS/DCP反应共混中加入了含适量双键组分的添加剂亚油酸三甘酯(GTL).结果发现,较少量GTL的加入就显著抑制了聚丙烯的降解,且进一步改善了合金的相形态.在合适的GTL与DCP用量下,反应共混不但显著改善了PP/AS合金的相形态,而且提高了合金的力学性能,初步确立了聚丙烯共混物一步反应共混挤出增溶的方法. 相似文献
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固相法氯化聚乙烯增韧聚氯乙烯的研究 总被引:2,自引:0,他引:2
研究了聚氯乙烯与固相法氯化聚乙烯的相容性与氯含量、共混方式以及CPE链结构的关系,动态力学性能表明PVC/CPE为部分相容体系,CPE中类似PVC的链段与PVC形成相间过渡层,共混方式影响共混体系的相容程度,透射电镜结构表明CPE呈连续网络结构分布于PVC粒子表面,共混条件一定时,共混物的抗张强度随相容性的改改善而增加。 相似文献
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DSC和SEM研究结果表明聚苯乙烯(PS)与一种热致液晶聚合物(LCP)(PHB/PET(60/40)共聚酯)完全不相容.共混体系具有与组分无关的Tg,并且表现出明显的两相结构.将PS进行化学改性(引入磺酸基团)制备成磺化聚苯乙烯(SPS),随中和盐离子的变化有:酸式、Li、Na、Zn和Mn盐五种形式.用DSC和SEM对LCP与SPS共混物的热性能和形态进行了分析和表征.共混体系有一个与组成相关,且明显低于纯SPS的Tg.这表明了PS与LCP的相容性因为磺酸基团的引入而得到了改善.同时用Fox方程计算了LCP的Tg.当SPS含量较低时(不大于50%)在各个共混体系中,所估算的LCP的Tg相互吻合.表明共混体系满足Fox方程的前提条件,即LCP与SPS形成相容体系.当SPS含量较低时(25%),LCP/SPS的共混物为较均一体系,断面光滑;而SPS含量较高时,在脆断面可以观察到纳米级的颗粒.电子能谱分析证明了这些颗粒是SPS负离子的聚集体. 相似文献
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用固体高分辨NMR系统地研究了几种典型的均聚物,共聚物,聚合物共混物以及用接枝共聚物增容的不相容聚合物共混体系的13C自旋-晶格弛豫特性。研究结果表明:13C自旋-晶格弛豫时间(T1(C))是表征固体聚合物体系的很有用参数,它能提供有关本体聚合物微观形态结构的信息,并可望建立聚合物的微观结构与宏观性能的关系,它不仅能准确无误地反映共混体系中可能存在的各种相互作用,而且能定性地给出相互作用的大小和准确地指明相互作用产生的位置,因而为揭示共混体系的相容机理提供了最直接的证据,另外T1(C)还能给出增容剂对不相容共混体系的增容作用和增容机制的直接实验证据 相似文献
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用4种热致液晶聚合物分别与聚丙烯,聚对苯二甲酸丁二酯,聚碳酸酯,聚醚砜和聚砜搭配,在各聚合物对的“加工窗口“温度范围内熔融共混并挤塑得到6种共混物。藉流变仪,扫描电子显微镜,偏光显微镜,动态力学谱仪等重点研究了原位复合材料中微纤结构的形成,组分特性,熔体粘度,挤塑温度和浓度等因素对各向异性结构形成的贡献,以及液晶聚合物对聚合物结晶的诱导作用和两相间的相互作用。 相似文献
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Polymer blends based on poly(ethylene 2,6‐naphthalate) (PEN) and poly‐(ethylene terephthalate) (PET) reinforced with a thermotropic liquid crystal polymer (TLCP) were prepared using a melt blending process. Polymer blends consisting of conventional cheap polyester with a small quantity of expensive TLCP are of interest from an economic point of view. The shear viscosity of the TLCP and polyester blends decreased with increasing shear rate and depended on TLCP content. The lower values of the structural viscosity index for the TLCP and polyester blends were attributed to the formation of fibrillar TLCP structures having elongated fibrils in the polyester matrix. The TLCP/PEN blends exhibited long TLCP fibrils that had smaller average diameters and narrower distributions of the diameter compared with those of the TLCP/PET blends. The higher shear force and lower viscosity ratio observed may favor the in situ TLCP fibril formation in the polyester matrix. The viscosity ratio was the most crucial factor in controlling the morphology of the TLCP phase in the TLCP and polyester blends. © 2005 Wiley Periodicals, Inc. J Polym Sci Part B: Polym Phys 43: 3600–3610, 2005 相似文献
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The flame retardancy of aromatic thermotropic liquid crystal phosphorus-containing copolyester,TLCP,on PET was investigated.The results show that the presence of TLCP promotes char formation of the substrate and enhances thermal stability of char,hence delay its decomposition.SEM pictures show that the char formed from PET/TLCP is more compact, therefore is more resistant to fire and heat than that from pure PET.Evolved gas analysis by I.R measurements indicates that TLCP would decompose to produce phosp... 相似文献
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热致液晶聚酯共混物与复合材料研究 总被引:3,自引:0,他引:3
评述了热致液晶聚酯的共混物与复合材料的研究新进展,揭示了热行为与相容性、流变性与加工性以及形态结构与多种性能之间的内在联系,展望了应用于高强高模纤维与塑料、低热膨光纤涂层及低透气包装膜等高性能材料的前景. 相似文献
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S. Saikrasun S. Bualek‐Limcharoen S. Kohjiya K. Urayama 《Journal of Polymer Science.Polymer Physics》2005,43(2):135-144
The anisotropic mechanical properties of the thermoplastic elastomer (TPE) in situ reinforced with thermotropic liquid‐crystalline polymer (TLCP) fibers were investigated by uniaxial, strip‐biaxial, and equibiaxial tensile measurements. The in situ composite sheets were prepared from an immiscible blend of a TLCP, Rodrun LC3000, and a TPE, styrene‐(ethylene butylene)‐styrene (SEBS) triblock copolymer, by a melt extrusion process. The uniaxial orientation of the TLCP fibers in the TPE matrix generated during processing yielded a significant mechanical anisotropy in the composites. The biaxial tensile measurements clearly demonstrated the anisotropic mechanical properties of the composites: The modulus in the direction parallel to the machine direction (MD) was considerably higher than that in the transverse direction (TD), even at large deformations; in equibiaxial stretching, the yield strain in the MD was smaller than that in the TD; the composite containing 10 wt % of TLCP exhibited the highest mechanical anisotropy among the composites, with 0–30 wt % TLCP. The latter result was in accord with the SEM observation that the composite with 10 wt % of TLCP possessed the best fibrillar morphology and the highest degree of uniaxial orientation of the TLCP fibers. The yield strains in uni‐ and biaxial elongation for the composite containing 10 wt % of TLCP were almost the same as those for the neat styrene‐ethylene butylene‐styrene. The TLCP phase with good fibrillation did not appreciably alter the original yielding characteristics of the elastomer matrix. © 2004 Wiley Periodicals, Inc. J Polym Sci Part B: Polym Phys 43: 135–144, 2005 相似文献
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Jin‐Hae Chang Bo‐Soo Seo Seong Hun Kim 《Journal of Polymer Science.Polymer Physics》2004,42(20):3667-3676
Blends were synthesized via the melt blending of a thermotropic liquid‐crystalline polymer (TLCP) and a poly(butylene terephthalate) (PBT) hybrid containing 2 wt % organoclay. A TLCP was also synthesized with side groups based on a nematic liquid‐crystalline phase. The blends of TLCPs with PBT hybrids were melt‐spun with different concentrations of the liquid‐crystalline polymer and different draw ratios (DRs) to produce monofilaments. Regardless of the TLCP concentration in the hybrids, transmission electron microscopy photographs proved that the clay layers of the organoclay were intercalated and partially exfoliated in the PBT matrix. At DR = 1, the maximum enhancement in the ultimate tensile strength was observed for blends containing 8% TLCP, and the tensile strength decreased with further increases in the TLCP concentration. The initial modulus monotonically increased with increasing TLCP concentration. When DR increased from 1 to 44, the increased stretching caused the tensile property to decrease significantly, debonding to occur, and voids to form. These trends with increasing DR were observed in all the systems. © 2004 Wiley Periodicals, Inc. J Polym Sci Part B: Polym Phys 42: 3667–3676, 2004 相似文献
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Ethyl cellulose (EC), taken as a thermotropic liquid crystalline polymer, was blended with polypropylene (PP), followed by injection molding. Fibre-forming of EC in the PP matrix is analyzed,based on the rheological data,dynamic mechanical analysis and fracture micrographs of EC/PP blends. The addition of maleated PP, for the modification of the interphasial interaction between the PP matrix and the EC fibrils, did not impair the fiber formation substantially. 相似文献
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<正> 热致液晶高分子(TLCP)是一种具有高强度、高模量和良好加工性能的新型高分子材料,在流场、温度场和应力场的作用下,易于取向,产生自增强效果.与工程塑料原位(insitu)复合,可以改善工程塑料的流变性能和加工性能,同时还可以提高工程塑料的力学 相似文献