熔融共混PPS／PEEK中PPS组分的结晶行为

采用熔融共混法制备结晶／结晶共混体系ＰＰＳ／ＰＥＥＫ，并用差示扫描量热法研究了不同ＰＥＥＫ含量和不同ＰＥＥＫ粒径对ＰＰＳ／ＰＥＥＫ共混物中ＰＰＳ组分结晶行为的影响。随ＰＥＥＫ含量的增加ＰＰＳ的结晶温度提高，结晶峰宽增加。这是由于在降温过程中ＰＥＥＫ先结晶，可充当ＰＰＳ熔体结晶的异相晶核，使ＰＰＳ结晶温度提高，且随着ＰＥＥＫ含量增加，异相晶核密度增大，但ＰＥＥＫ晶区的存在阻碍了ＰＰＳ的结晶生长过程，     

EPDM粘度对PP＼EPDM共混物断口形态和冲击性能的影响

用机械共混的方法制备了一系列不同ＥＰＤＭ粘度的ＰＰ／ＥＰＤＭ共混物，对其力学性能和结晶行为进行了表征，并用扫描电子显微镜（ＳＥＭ）研究了共混物冲击样条的断口形态。实验结果表明，ＥＰＤＭ粘度对共混物的冲击强度有较大影响，随着ＥＰＤＭ粘度的增大，共混物的冲击强度出现极大值，而结晶行为的变化则较小，研究共混物冲击样条的断口形态发现，共混物的冲击强度随ＥＰＤＭ粒径的变化出现极大值。     

熔融条件对聚醚醚酮结晶熔融行为的影响

用ＤＳＣ法研究了熔融温度和熔融时间对聚醚醚酮地晶熔融行为的影响。实验表明，聚醚醚酮的结晶峰随熔融延长向高温移动，且峰形变窄，峰的强度增大，继续延长熔融时间，结晶峰降低，峰形变宽；熔融时间延长时，聚醚醚酮的玻璃化转变温度和冷结晶峰温度均提高，熔融峰强度减弱。熔融温度升高时，聚醚醚酮的结晶峰强度减弱，峰宽增强；而冷结晶温度提高。     

PET离聚物共混体系的结晶与熔融行为研究

利用ＤＳＣ对聚对苯二甲酸乙二酯（ＰＥＴ）与离聚物Ｓｕｒｌｙｎ和Ａｃｌｙｎ系列组成的共混体系的结晶与熔融行为进行了研究．结果表明，离聚物对ＰＥＴ的低温与高温结晶都有十分明显的促进作用，离聚物Ｎａ盐比离聚物Ｚｎ盐对ＰＥＴ的结晶加速作用显著。共混体系的熔融热焓随离聚物Ｎａ盐含量的增加有所降低，随Ｚｎ盐含量的增加稍有提高，两者的熔点及熔限与熔融热焓的变化规律一致．     

DSC法对动态硫化PP／EPDM中PP—EPDM共交联结构的研究

根据共交联ＰＰ分子与正常ＰＰ分子在结晶与熔融特征及其对外因素响应上的差异,采用ＤＳＣ分析方法,研究了动态硫化ＰＰ／ＥＰＤＭ中ＰＰ－ＥＰＤＭ共交联结构。结果显示在动态硫化ＰＰ－ＥＰＤＭ的熔融ＤＳＣ曲线上的１５０℃曲线上约１５０℃处出现一新的熔融峰,改变结晶速率或ＤＳＣ测试程序,可发现形成这一新峰的化学结构具有强烈的结晶滞后性,而简单共混ＰＰ／ＥＰＤＭ的ＤＳＣ曲线上始终未出现类似新峰。结合化学反应理论     

聚苯乙烯共混聚丙烯树脂的熔融流变行为

文章研究了聚苯乙烯（ＰＳ）与聚丙烯（ＰＰ）共混物的熔融流变行为。采用索氏抽提法研究表明ＰＳ与ＰＰ产生了接技反应，ＰＳ用量在０～２０ｗｔ％范围内，１０ｗｔ％共混物接技量为最大，同时在ＰＰ中分散的ＰＳ粒径最小。随着ＰＳ含量的增加，减少了熔融粘度，组成－熔融粘度曲线在ＰＳ为１０ｗｔ％时略有所弯曲，通过接技反应，增大了ＰＰ粒子的范畴。     

PA6／PET共混物的非等温结晶动力学研究

采用等速升温和等速降温ＤＳＣ法对ＰＡ６／ＰＥＴ共混物的非等温结晶动力学进行了研究。在升温和降温ＤＳＣ相变曲线上，ＰＡ６／ＰＥＴ共混物具有双重熔融峰和双重结晶峰，表明ＰＡ６和ＰＥＴ组分可形成各自的结晶体。给出了各组分的结晶峰温度、结晶峰的半高宽、结晶半时间等表征结晶行为的参数，并讨论了影响结晶的因素。     

热致性液晶共聚酯／聚丙烯共混物

通过熔融共混制备了不同配比的（ＰＨＢ／ＰＥＴ）／ＰＰ共混物，研究表明，共混物的弯曲弹性模量，弯曲强度及拉伸强度均比ＰＰ有所提高，当液晶含量为１５％，ＰＰ－ｇ－ＭＡＨ为２０％时，（ＰＨＢ／ＰＥＴ）（ＰＰ－ｇ－ＭＡＨ）／ＰＰ三元共混物弯曲弹性模量最大，ＰＰ－ｇ－ＭＡＨ作为两相界面相容剂，改善了两相间的亲合性。ＤＳＣ分析表明，共混物中ＰＰ相的结晶温度有较大幅度的提高，（ＰＨＢ／ＰＥＴ）共聚酯起了ＰＰ结晶     

低熔点聚酰胺的结晶和熔融行为

采用差示扫描量热法和X射线衍射法对低熔点聚酰胺的结晶和熔融行为进行研究,考察了共聚单体、等温结晶温度和时间对样品结晶和熔融行为的影响。结果表明:经等温结晶后的样品再次升温时,均出现了双熔融峰,且随等温结晶温度的升高或时间的延长,低温熔融峰向高温方向移动,而高温熔融峰则基本不变。等温结晶温度80℃时,两种样品的熔融焓值均较大,并且随结晶时间的延长会变大。X射线衍射结果表明:随着结晶温度的升高或时间的延长,衍射峰变得尖锐,样品的结晶度增大。添加了十二烷基二胺的切片B比添加癸二胺的切片A具有更好的结晶能力,比较适合纺丝加工。     

聚丙烯／三元乙现橡胶共混体系的研究

研究了三元乙丙橡胶（ＥＰＤＭ）对聚丙烯（ＰＰ）结晶行为的影响以及ＰＰ／ＥＰＤＭ共混物的形态与性能的关系。ＥＰＤＭ对ＰＰ的熔点、结晶温度无明显影响，ＰＰ／ＥＰＤＭ共混物的结晶度随ＥＰＤＭ组份含量的增加而降低，适量的ＥＰＤＭ可使ＰＰ的晶体尺寸减小，晶胞参数与组份比无关。当ＥＰＤＭ用量为３０％￣４０％时，共混物的冲击强度迅速提高。     

Investigation on the crystallization behavior of poly(ether ether ketone)/poly(phenylene sulfide) blends

The morphology of nonisothermally crystallized poly(phenylene sulfide) (PPS) and its blend with poly (ether ether ketone) (PEEK) have been observed by polarized optical microscope (POM) equipped with a hot stage. The nonisothermal crystallization behavior of PPS and PEEK/PPS blend has also been investigated by differential scanning calorimetry (DSC). The maximum crystallization temperature for PEEK/PPS blend is about 15°C higher than that of neat PPS, and the crystallization rate, characterized by half crystallization time, of the PEEK/PPS blend is also higher than that of the neat PPS. These results indicate that the PEEK acts as an effective nucleation agent and greatly accelerates the crystallization rate of PPS. The Ozawa model was used to analyze the nonisothermal crystallization kinetics of PPS and its blends. The Avrami exponent values of neat PPS are higher than that of its blend, which shows that the presence of PEEK changed the nucleation type of PPS from homogeneous nucleation to heterogeneous nucleation. © 2008 Wiley Periodicals, Inc. J Appl Polym Sci, 2008     

Effect of high-performance polymers on crystallization and multiple melting behavior of poly(phenylene sulfide)

The crystallization and multiple melting behavior of poly(phenylene sulfide) (PPS) and its blends with amorphous thermoplastic bisphenol A polysulfone (PSF) and phenolphthalein poly(ether ketone) (PEK-C), crystalline thermoplastic poly(ether ether ketone) (PEEK), and thermosetting bismaleimide (BMI) resin were investigated by a differential scanning calorimeter (DSC). The addition of PSF and PEK-C was found to have no influence on the crystallization temperature (T_c) and heat of crystallization (ΔH_c) of PPS. A significant increase in the value of T_c and the intensity of the T_c peak of PPS was observed and the crystallization of PPS can be accelerated in the presence of the PEEK component. An increase in the T_c of PPS can also be accelerated in the BMI/PPS blend, but was no more significant than that in the PEEK/PPS blend. The T_c of PPS in the PEEK/PPS blends is dependent on the maximum temperature of the heating scans and can be divided into three temperature regions. The addition of a second component has no influence on the formation of a multiple melting peak. The double melting peaks can also be observed when PPS and its blends are crystallized dynamically from the molten state. © 1998 John Wiley & Sons, Inc. J Appl Polym Sci 69: 637–644, 1998     

Crystallization and melting behavior of poly(ether ether ketone)/poly(aryl ether sulfone) blends

The crystallization and melting behavior of poly(ether ether ketone) (PEEK) in blends with poly(aryl ether sulfone) (PES) prepared by melt mixing are investigated by differential scanning calorimetry (DSC) and wide‐angle X‐ray scattering (WAXS). The presence of PES is found to have a notable influence on the crystallization behavior of PEEK, especially when present in low concentrations in the PEEK/PES blends. The PEEK crystallization kinetics is retarded in the presence of PES from the melt and in the rubbery state. An analysis of the melt crystallization exotherm shows a slower rate of nucleation and a wider crystallite size distribution of PEEK in the presence of PES, except at low concentrations of PES, where, because of higher miscibility and the tendency of PES to form ordered structures under suitable conditions, a significantly opposite result is observed. The cold crystallization temperature of the blends at low PES concentration is higher then that of pure PEEK, whereas at a higher PES concentration little change is observed. In addition, the decrease in heat of cold crystallization and melting, which is more prevalent in PEEK‐rich compositions than in pure PEEK, shows the reduction in the degree of crystallinity because of the dilution effect of PES. Isothermal cold crystallization studies show that the cold crystallization from the amorphous glass occurs in two stages, corresponding to the mobilization of the PEEK‐rich and PES‐rich phases. The slower rate of crystallization of the PEEK‐rich phase, even in compositions where a pure PEEK phase is observed, indicates that the presence of the immobile PES‐rich phase has a constraining influence on the crystallization of the PEEK‐rich phase, possibly because of the distribution of individual PEEK chains across the two phases. The various crystallization parameters obtained from WAXS analysis show that the basic crystal structure of PEEK remains unaffected in the blend. Further, the slight melting point depression of PEEK at low concentrations of PES, apart from several other morphological reasons, may be due to some specific interactions between the component homopolymers. © 2003 Wiley Periodicals, Inc. J Appl Polym Sci 90: 2906–2918, 2003     

聚苯酯对聚醚醚酮结晶行为的影响

用模压法制备了聚苯酯(Ekonol)／聚醚醚酮(PEEK)复合材料，通过X射线衍射(XRD)、差示扫描量热分析(DSC)考察了PEEK的结晶行为，并测定了复合材料的熔点、结晶温度和玻璃化转变温度。结果表明：Ekonol含量的大小对PEEK的结晶行为产生了直接影响，PEEK的相对结晶度随着Ekonol含量的增加而提高；Ekonol含量小于30％时，对复合材料的熔点、结晶温度和玻璃化转变温度影响不大，但含量大于30％时，材料的结晶温度、熔融温度下降，玻璃化转变温度提高。     

Crystallization and melting behavior of poly(p‐phenylene sulfide) in blends with poly(ether sulfone)

Crystallization and melting behaviors of poly(p‐phenylene sulfide) (PPS) in blends with poly(ether sulfone) (PES) prepared by melt‐mixing were investigated by differential scanning calorimetry (DSC). The blends showed two glass transition temperatures corresponding to PPS‐ and PES‐rich phases, which increased with increasing PES content, indicating that PPS and PES have some compatibility. The cold crystallization temperature of the blended PPS was a little higher than that of pure PPS. Also, the heats of crystallization and melting of the blended PPS decreased with increasing PES content, indicating that the degree of crystallinity decreased with an increase of PES content. The isothermal crystallization studies revealed that the crystallization of PPS is accelerated by blending PPS with 10 wt % PES and further addition results in the retardation. The Avrami exponent n was about 4 independent on blend composition. The activation energy of crystallization increased by blending with PES. The equilibrium melting point decreased linearly with increasing PES content. © 1999 John Wiley & Sons, Inc. J Appl Polym Sci 74: 1686–1692, 1999     

PPEK/PPS共混物流变性能的研究

通过熔融挤出的方法制备了含不同比例的二氮杂萘酮结构的聚芳醚酮（PPEK）和聚苯硫醚（PPS）共混物，并用毛这流变仪研究了该共混物的流变性能。在所研究的温度和剪切速率范围内，当PPS窗户低时，PPEK／PPS共混物溶体为典型的假塑性流体，而当PPS含量为60％时，共混物则近似为牛顿流体。PPS的混入极大地降低了PPEK的熔体粘度，而且在一定范围内，随PPS含量的增加，可有效地改善挤出物外观。同时考察了剪切速率，实验温度等对共混物流变性能的影响。     

Effect of dihydroxydiphenyl ether on poly(ether ether ketone)

A series of modified poly(ether ether ketone) (PEEK) polymers were synthesized by introduction of addition ether groups from dihydroxydiphenyl ether (DHDE) into the PEEK structure. The inherent viscosity of the DHDE-modified PEEK increased with reaction time at 320 °C. DSC thermograms showed the melting points of the obtained PEEK decreased with the increase of the DHDE content in the backbone. The degradation temperature (T_d) was slightly decreased by the introduction of DHDE. The crystallinity as measured via the X-ray diffraction (XRD) increases with the introduction of DHDE into the modified PEEK. The crystalline structure was identified as an orthorhombic structure with lattice constants a = 7.72 Å, b = 5.86 Å, and c = 10.24 Å. Due to the glass transition temperature (T_g) and the melting temperature (T_m) decreasing with the increase of the DHDE content in the reaction system. the processability of the resultant PEEK could be improved through this DHDE modification.     

Enthalpic relaxation in semi-crystalline PEEK

The effect of crystallisation on the glass transition temperature and enthalpic relaxation in poly(ether ether ketone) (PEEK) has been investigated. The increase in glass transition temperature and the activation enthalpy of ageing is explained in terms of the amorphous phase being constrained by the crystallites. The extent of enthalpic relaxation with time has been analysed in terms of the Cowie-Ferguson model and the β value was found to be dependent on both temperature and the crystalline morphology, changes in the co-operativity of the relaxations are used to explain this observation.     

Study on Thermal Properties and Crystallization Behavior of Blends of Poly(phenylene sulfide)/Poly(ether imide)

The thermal behavior of poly(phenylene sulfide) (PPS) blends with poly(ether imide) (PEI) was studied by differential scanning calorimeter (DSC). The crystallization temperature of PPS in blends shifted from 216.8°C to 226.4°C upon addition of 20–70% PEI contents. The heat of crystallization remained unchanged with less than 50% PEI in blends, whereas the heat of fusion decreased with increasing PEI content. The isothermal crystallization indicated that incorporating PEI would accelerate the crystallization rate of PPS. The activation energy of crystallization increased with addition of PEI. The equilibrium melting point of PPS/PEI blends was not changed with compositions.