热致液晶乙基纤维素与尼龙－1010共混物的研究

在自制单螺杆小型挤出机上通过熔融共混的办法，制备了不同配比（５／９５－２５／７５）的ＥＣ／Ｎｙｌｏｎ－１０１０共混物，用ＷＡＸＤ、ＤＳＣ、毛细管流变仪，力学性能测试等方法对共混物进行研究，发现共混后尼龙－１０１０的形态结构有明显改变，其强度、模量都有提高，在高剪切速率下，共混物粘度大大降低，配比为１４／８５时，这些性能的改进尤为明显。     

混合液晶与尼龙1010三元共混物的研究

采用ＤＣＳ、ＰＯＭ、ＳＥＭ及力学性能测试，研究了不同对羟基苯甲醛和对苯二甲酸乙二醇酯含量的液晶共聚酯ＰＥＴ４０／ＰＨＢ６０（ＬＣＰ１）和ＰＥＴ３０／ＰＨＢ７０（ＬＣＰ２）的共混物与尼龙１０１０为基体的三元混体系。结果表明，液晶共混物的力学性能比单组分有明显提高，通过改变混合液晶中两组分的含量可调节其加工温度与粘度，从而满足了与尼龙１０１０共混的加工窗口要求。混合液晶的加入对尼龙１０１０的结晶与熔融     

热致液晶PEI与PES—C共混物的研究

通过熔融共混,制备不同配比（２．５／９７．５－７５／２５）的ＰＥＩ／ＰＥＳ－Ｃ共混物,使用ＷＡＸＤ、ＤＳＣ、锥板流变仪、力学性能测试、ＳＥＭ等方法对共混物进行了研究。共混后强度、模量均有提高,在高剪切速率下,共混物的粘度有所降低。扫描电镜照片显示,共混物具有“皮芯”结构。     

尼龙1010分别与未接枝和接枝马来酸酐的高抗冲聚苯乙烯的共混体系研究

研究了尼龙１０１０（ Ｐ Ａ１０１０） 与高抗冲聚苯乙烯（ Ｈ Ｉ Ｐ Ｓ） 及马来酸酐官能化的 Ｈ Ｉ Ｐ Ｓ（ Ｈ Ｉ Ｐ Ｓ ｇ Ｍ Ａ） 间的相互作用,利用 Ｄ Ｓ Ｃ, Ｄ Ｍ Ａ, Ｓ Ｅ Ｍ 及拉伸测试等方法研究了不同组成比的共混物 Ｐ Ａ１０１０／ Ｈ Ｉ Ｐ Ｓ 与 Ｐ Ａ１０１０／ Ｈ Ｉ Ｐ Ｓ ｇ Ｍ Ａ 的结晶、玻璃化转变、形态及力学性能．结果表明 Ｈ Ｉ Ｐ Ｓ 与 Ｐ Ａ１０１０ 虽然结构相差甚远,但两者之间仍存在着一定的相互作用;而 Ｈ Ｉ Ｐ Ｓ ｇ Ｍ Ａ 可使 Ｐ Ａ１０１０ 的低温熔融峰变小,当 Ｈ Ｉ Ｐ Ｓ ｇ Ｍ Ａ 的含量≤５０ ％ 时,随着其含量的增加,共混物中 Ｐ Ａ１０１０ 的结晶温度升高;当含量＞ ５０ ％ 时, Ｐ Ａ１０１０ 发生分级结晶行为,其结晶温度由原来的１７８ ℃降至８３ ℃,同时 Ｈ Ｉ Ｐ Ｓ ｇ Ｍ Ａ 与 Ｐ Ａ１０１０ 间的相互作用变大, Ｄ Ｍ Ａ 谱上有明显的新的松驰峰． Ｐ Ａ１０１０／ Ｈ Ｉ Ｐ Ｓ ｇ Ｍ Ａ 共混体系的拉伸性能要优于相同组成的 Ｐ Ａ１０１０／ Ｈ Ｉ Ｐ Ｓ 体系．以上现象主要是由于 Ｈ Ｉ Ｐ Ｓ ｇ Ｍ Ａ 与 Ｐ Ａ１０１０ 中的端胺基发生了化学反应,产生了接枝共聚物 Ｐ Ａ１０１０ ｇ Ｈ Ｉ Ｐ     

PA1010/丁基橡胶磺酸盐共混体系组分间相互作用和体系相容性的研究

ＰＡ１０１０／丁基橡胶磺酸锌盐共混体系的ＤＳＣ、ＦＴＩＲ、固体ＮＭＲ结果表明两组份之间存在强的相互作用，ＤＭＡ结果表明随锌盐的比例增加，两组份相容性增加，并产生混合新相。ＰＡ１０１０／丁基橡胶磺酸钠盐共混体系中两组份之间的相互作用不明显，相容性较差。ＳＥＭ结果与上述结果完全吻合。     

PA1010／丁基橡胶磺酸盐共混体系组分间相互作用和体系相容…

ＰＡ１０１０／丁基橡胶磺酸锌盐共混体系的ＤＳＣ、ＦＴＩＲ、固体ＮＭＲ结果表明两组份之间存在强的相互作用，ＤＭＡ结果表明随锌盐的比例增加，两组份相容性增加，并生产混合新相。ＰＡ１０１０／丁基橡胶磺酸钠盐共混体系中两组份之间的相互作用不明显，相容性较差。ＳＥＭ结果与上述结果完全吻合。     

刚性粒子增韧尼龙1010体系的研究

采用扫描电镜和动态力学等研究了在磺化聚苯乙烯（ＨＳＰＳ）作用下，尼龙１０１０（ＰＡ１０１０）／聚苯乙烯（ＰＳ）共混物的形态及相容性。结果表明，ＨＳＰＳ的加入显著改善了ＰＳ与ＰＡ１０１０的相容性，加强了界面粘结，使共混物缺口冲击明显提高，实现了ＰＳ增韧ＰＡ１０１０的目标。偏光显微竟结盟表明，ＨＳＰＳ的加入对共混物中ＰＡ１０１０的结晶形态有明显影响，使ＰＡ１０１０球晶细化且不完善。     

高密度聚乙烯与乙烯丙烯辛烯－1共聚物共混体系的相容性

用ＤＳＣ和ＷＡＸＤ方法研究了高密度聚乙烯／聚（乙烯丙烯辛烯－１）（ＨＤＰＥ／ＥＰＯ）共混体系的结晶性能。共混物的ＤＳＣ曲线皆呈单峰，表明共混体系形成了共晶。晶胞参数ａ及结晶度随共混物组成而变，进一步证明ＨＤＰＥ／ＥＰＯ共混体系的相容性．     

热致液晶共聚酯／Nylon－1010共混物的研究

利用偏光显微镜（ＰＬＭ），差示扫描量热计及广角Ｘ－射线衍射等手段研究了热致液晶共聚酯／Ｎｙｌｏｎ－１０１０共混体系．发现当热致液晶共聚酯（ＨＴＨ１０）含量达到３０％时共混物微结构与纯ＨＴＨ１０相似．尼龙－１０１０的结晶度先是随ＨＴＨ１０含量增加而增加，随后又随之下降，但其结晶温度却随ＨＴＨ１０加入而单调下降，共混物的熔融热焓△Ｈｍ在ＨＴＨ１０含量为３０％时与计算值有较大的偏差，广角Ｘ－射线衍射结果表明，此时共混物结构发生了较为明显的变化，两组份之间在此时存在一定的相互作用．     

聚合物共混物脆韧转变性能研究 Ⅳ橡胶粒子的分布对PVC/NBR共混物脆韧转变的影响

根据作者已建立的准网络形态模型和推导出的基体层厚度计算公式，从实验上研究了橡胶粒子的分布对聚氯乙烯（ＰＶＣ）／丁氰橡胶（ＮＢＲ）共混物脆韧转变的影响．结果表明，不仅无规形态ＰＶＣ／ＮＢＲ共混物存在脆韧转变主曲线，而且准网络形态ＰＶＣ／ＮＢＲ共混物也存在脆韧转变主曲线．但是两条主曲线明显不重合，表明橡胶粒子的分布对ＰＶＣ／ＮＢＲ共混物脆韧转变有显著影响．而且准网络形态ＰＶＣ／ＮＢＲ共混物的临界基体层厚度比无规形态ＰＶＣ／ＮＢＲ共混物的临界基体层厚度大得多，表明准网络形态比无规形态明显有利于增韧．因此临界基体层厚度不仅是基体的特征参数，还是界面粘结和橡胶粒子分布的函数．     

马来酸酐改性聚乙烯／尼龙1010共混体系的结晶行为

在尼龙-1010与马来酸酐改性聚乙烯共混体系中,马来酸酐起结晶成核剂的作用,可显著加快共混物中尼龙-1010组份的结晶。共混物的混容性也略有改善。     

苯乙烯-马来酸酐共聚物增容Nylon-6/ABS共混体系的形态和力学性能

通过熔融共混法制备了苯乙烯-马来酸酐共聚物(SMA)增容的尼龙6(Nylon-6)/ABS共混物.采用TEM、SEM、FTIR等研究了SMA增容的Nylon-6/ABS共混物的相形态与性能.发现在Nylon-6和ABS的简单共混体系中,分散相易聚集,相界面清晰,断裂面光滑,呈脆性断裂,相容性差.加入少量SMA后,共混物由共连续相结构转变为典型的"海-岛"结构,分散相分布均匀,界面粘接程度增加,表明SMA对Nylon-6/ABS体系有显著的增容效果.     

显微镜图像分析研究聚丙烯/尼龙1010共混物相结构及其性能

用扫描电子显微镜图像分析研究了聚丙烯/聚酰胺1010共混物及其部分相容体系的相形态结构,计算了表征相结构和尺寸的结构参数,如分散相的平均直径、平均弦长和分散相的质心相关距等.并分别讨论了聚丙烯/聚酰胺1010共混物及其部分相容体系的相形态以及其结构参数与共混物组成的关系.测定了聚合物及其共混物体系的力学性能,讨论了共混物组成与力学性能的关系.聚丙烯/聚酰胺1010共混物的拉伸模量与组成的关系较为复杂,但其部分相容体系的拉伸模量与组成呈线性关系.聚丙烯/聚酰胺1010及其共混物体系的屈服强度与共混物组成均呈线性关系.表征相结构的两相平均弦长比(l-1/-l2)与组成以及共混物体系力学性能与组成的关系,二者相似.同时讨论了体系力学性能随相尺寸等的变化规律.     

Miscibility Behaviour of Poly(ether Sulphone)/nylon-6 Blends

Binary blends of poly (ether sulphone) (PES) and Nylon-6 were prepared in a whole range of composition by melt extrusion. Miscibility behaviour of the blends were studied using thermal analytical techniques like differential scanning calorimetry (DSC) and dynamic mechanical analysis (DMA). Due to the rapid crystallization of Nylon-6 as it is cooled from the melt state, its glass transition behaviour could not be detected even in the quenched samples by DSC. Furthermore, the crystallization and melting behaviour of the blends have been studied by DSC. DMA results show that the dynamic storage modulus of the blends were in-between those of the constituent polymers. Also the glass transition of Nylon-6 phase as determined by the peak in loss tangent remains constant which shows that the two polymers are immiscible. Thermal expansion coefficient of the blends as determined by TMA is greater than that of Nylon-6 signifying the increased dimensional stability of the blends at higher temperatures. Morphological studies done by scanning electron microscopy (SEM) show the biphasic nature of the blends, with clear cut boundaries between the phases because of poor interfacial adhesion. Dispersed particle size is small when Nylon-6 is the dispersed phase because of its lower melt viscosity as compared to PES. Thermal stability of the blends was measured using thermogravimetric analysis (TG). Two-step decomposition behaviour was observed because of macro-phase separated morphology. This revised version was published online in July 2006 with corrections to the Cover Date.     

X-RAY SCATTERING STUDIES ON NYLON-1010

From Wide-Angle X-ray Scattering (WAXS) pattern of uniaxially orientated fibers, the crystal structure of Nylon-1010 was determined. The Nylon-1010 crystallizes in the triclinic system, with lattice dimensions: a=4.9A, b=5.4A, c=27.8, α=49 °, β=77 °,γ=63.5 °, the unit cell contains one monomeric unit and the space group is P. The degree of crystallinity of polymer was deter mined as about 60%, using Ruland's method.The structures of Nylon-1010 with different draw ratio have been investigated by using Small-Angle X-ray Scattering (SAXS). The results indicate that the draw ratio of samples has a significant effect on microstructure of Nylon-1010. The long period and thickness of amorphous layer obviously increase but the invariant, average lameUar and interphase zone show almost independent of draw ratio, long period increases because amorphous layer increases with draw ratio. The electron density fluctuation values increased with draw ratio, but inner surface O_s is drecreased.     

尼龙-1010结晶结构

用WAXD方法测定了Nylon-1010为三斜晶系结晶结构;α=4.9(?),b=5.4(?),c=27.8(?),α=49°,β=77°,γ=63.5°,每个聚合物单胞含有一个重复单元,空间群为P(?)。模压试样用Ruland方法分析结晶度为60％。以上。电子密度相关函数法分析了SAXS现象,求得了Nylon-1010结晶片层厚度、过渡层厚度、长周期、比内表面及电子密度差。     

Block copolyetheramides III. Blends of nylon-6 and block copolyetheramides

Blends of Nylon-6 and block copolyetheramides with hard segments of Nylon-6 and soft segments of poly(tetramethylene ether) were prepared. The impact strength of the blends was enhanced by the presence of the block copolyetheramides as compared to the Nylon-6. Different block copolyetheramides exhibited different effects on the impact strength which could be described as the difference in compatibility between the Nylon-6 and the Nylon-6 segments of the block copolymers. The difference in compatibility was verified by the investigations of TEM and DSC. As the caprolactam content of the block copolyetheramides increased, the compatibility between the Nylon-6 and the Nylon-6 segments of the block copolymers was enhanced and the blends exhibited a higher impact strength in general. The heat deflection temperature of the blends decreased as the polyether content (depending on the type and the content of the block copolyetheramide) of the blends increased. When the polyether content was ≤ or 20 wt %, a small decrease in heat distortion temperature was found. © 1994 John Wiley & Sons, Inc.     

增容剂对“壳－核”型共聚物增韧尼龙6的亚微形态与性能的影响

增容剂对“壳－核”型共聚物增韧尼龙６的亚微形态与性能的影响汪晓东，金东吉，金日光（北京化工大学６１信箱北京１０００２９）关键词尼龙６，“壳－核”型共聚物，增容剂，增韧，亚微相态采用乳液“壳一核”型共聚物增韧各种工程塑料近年来引起广泛的关注ｌ‘，’１．...     

Miscibility and interfacial property studies of the blends of ethyl cellulose with copolyamide6/66/1010

Interfacial properties governing reverse osmosis separations were studied by using liquid chromatography data with respect to ethyl cellulose/copolyamide6/66/1010 (EC/PA-130) blends. The miscibility of ethyl cellulose/copolyamide6/66/1010 (EC/PA-130) blends was investigated by using differential scanning calorimetry (DSC) and Fourier transform infrared, while the interfacial properties of the blends, including the interfacial adsorption, hydrophobicity, polar and non-polar parameters and β-parameters, were studied by using liquid chromatography. The results show that EC and PA-130 are miscible at compositions of (80/20), (70/30) and (50/50). The hydrophobicity of EC/PA-130 increases with the of PA-130 content. The EC/PA-130(70/30) is superior to the other blends for separating non-dissociable polar organic solute and is more suitable for use as desalting membrane material. It seems that liquid chromatography is an effective tool for studying the interfacial properties of polymer blend materials and selecting high performance of membrane materials.