双单体改性对纳米CaCO3/PP结晶与熔融行为的影响

制备了界面改性纳米CaCO3／PP复合材料，用DSC研究了在有、无过氧化二异丙苯(DCP)存在下，反应单体丙烯酸(AA)及苯乙烯(St)对PP结晶与熔融行为的影响。结果表明：AA改性纳米CaCO3／PP可使结晶温度提高；St改性使纳米CaCO3／PP的结晶温度降低，但在DCP存在下结晶温度反而提高。AA和St双单体改性使纳米CaCO3／PP的结晶温度明显降低，但加有DCP的双单体改性却使纳米CaCO3／PP的结晶温度大幅提高，说明双单体接枝物有促进纳米CaCO3表面成核的作用。     

双单体接枝聚丙烯的制备及性能研究

研究了以苯乙烯（St）为共聚单体，聚丙烯（PP）熔融接枝丙烯酸（AA）的反应工艺。探讨了AA、共聚单体及引发剂用量等因素对接枝反应的影响。通过FTIR分析证实，AA和St接枝到PP链上形成PP-g-AASt接枝物，并且随着引发剂DCP用量的增大，接枝率呈现先升后降的趋势。通过TGA、WAXD及DSC等方法表征了接枝物的热性能和结晶性能。结果表明，随着接枝产物的接枝率的提高，其分解温度及最大失重率温度先上升，维持一段后再下降。而AA和St主要接枝在PP表面上，未破坏原来的晶型，少量的AA有利于结晶成核，提高结晶度。     

聚丙烯固相接枝丙烯酸制备亲水性聚丙烯的研究

研究了聚两烯(PP)固相接枝丙烯酸(AA)的反应工艺,深讨了反应时间、反应温度、单体用量及引发剂用量等因素对接枝反应的影响。通过FTIR证实AA确实接枝到PP链上形成PP-g-AA接枝物,并采用水接触角方法表征了接枝物的亲水性能。实验结果表明,当反应温度为120℃,反应时间为90min,PP:AA:BPO=100:10:0.4(massratio)时,可获得AA最大接枝率1.31%,与未接枝的聚丙烯相比,接枝物水接触角由90°减小到81°,亲水性能得到明显改善。DSC结果表明,固相接枝物PP-g-AA的熔融温度Tm和结晶温度Tc略有下降,结晶焓△Hc、熔融焓△Hm略有上升,结晶速率加快,结晶度有所提高;接枝改性提高了PP的热稳定性。     

PPS/PA1010合金的制备及其力学性能研究

选用丙烯酸接枝聚丙烯（PP-g-AA）和自制的甲基丙烯酸缩水甘油酯（GMA）嵌段共聚苯乙烯（St）接枝聚丙烯[PP—g-（GMA—CO—St）]为增容剂,采用双螺杆挤出机熔融挤出法制备了PPS／PA1010／PP—g—AA合金和PPS／PA1010／PP-g-（GMA—CO-St）合金,并分别对两种合金的力学性能进行了研究。结果表明,在保持合金其它力学性能不下降的情况下,随着PP—g—AA含量的增加,共混合金的冲击强度先提高后降低,当PP-g—AA含量为7份时,冲击强度比原合金提高了86．7％,比纯PPS提高了39．3％;而随着PP—g-（GMA—CO—St）含量的增加,冲击强度也有明显提高。     

聚丙烯固相接枝物增容PA6/PS共混体系

采用FTIR和WAXD研究了聚丙烯固相接枝苯乙烯（St)和马来酸酐（MAH）的结构，并研究了它对聚酰胺6／聚苯乙烯（PA6／PS）共混体系力学性能的影响及其非等温结晶动力学，研究结果表明，PP上可固相接枝St,MAH;gPP(PP接枝St和MAH双组分接枝物）增容PA6／PS的非等温结晶动力学与MandelKern理论基本吻合。     

PP/EVOH共混物结构与性能研究

采用丙烯酸接枝聚丙烯（PP-g-AA）、衣康酸接枝聚丙烯 (PP-g-ITA)、马来酸酐接枝聚丙烯 (PP-g-MAH)3种相容剂增容聚丙烯（PP）/乙烯-乙烯醇共聚物(EVOH)共混体系,研究了共混体系的相容性、热性能、力学性能和阻隔性能。红外光谱分析表明,相容性的改善源于相容剂与EVOH之间形成的酯键和氢键。扫描电镜显示,PP-g-AA、PP-g-ITA、PP-g-MAH的增容作用依次增强,共混体系中相容剂增容作用越强,分散相尺寸越小,界面结合越牢固。差示扫描量热分析发现,PP/EVOH增容共混体系中EVOH组分的结晶温度低于不含相容剂的共混体系EVOH组分的结晶温度,PP组分的结晶温度变化则相反。增容共混体系与不含相容剂的共混体系相比,拉伸强度提高了10 MPa,吸油率降幅达0.8 %。     

膨润土杂化改性聚丙烯共混体系性能研究

以乙醇为分散介质,过氧化二苯甲酰为引发剂,硫代硫酸钠为催化剂,合成了与聚丙烯具有良好复配性能的膨润土杂化改性聚苯乙烯材料(PS/H)。研究了PP/PS、PP/(PS/H)共混体系的性能。结果表明:原位悬浮聚合产物粒子中存在PS及有机改性的膨润土H,且膨润土在聚合产物中分散性良好;对于PP/PS和PP/(PS/H)共混体系,PS及PS/H的加入影响了PP的结晶形态,使共混体系结晶速率增加,相同比例的共混体系PP/(PS/H)对于PP/PS而言,其熔融峰位置向低温偏移,体系熔点略低,其结晶峰位置向高温偏移,结晶温度有较明显的提高;动态温度扫描结果显示,共混体系的表观粘度随着温度的升高而降低,同等PS含量下,由于杂化体系中膨润土的引入,PP/(PS/H)体系的表观粘度高于PP/PS体系;XRD测试结果表明,在熔融共混加工过程中聚合物链没有插层到膨润土片层中。     

GMA/St双组分单体熔融接枝聚丙烯的研究

分别以甲基丙烯酸缩水甘油酯（GMA）和马来酸酐（MAH）为接枝单体，苯乙烯（St）为接枝共单体，过氧化二异丙苯（DCP）为引发剂对聚丙烯（PP）进行熔融接枝，研究了接枝单体的种类、组分配比等因素对PP的接枝率和熔体流动速率等的影响，并研究了接枝PP的力学性能和耐热变形性能。实验结果表明：作为接枝单体，GMA比MAH更具有优越性；双组分单体熔融接枝PP的接枝率和性能优于单组分单体熔融接枝；接枝PP的结晶参数受其接枝率的影响；当PP／GMA／St／DCP=100／6／3／0、3时，PP—g^-（GMA—CO—St）的接枝率最高，力学性能和耐热变形性能最好。     

HYBRAR对PP结晶形态和性能的影响

采用熔融共混法制备了聚丙烯（PP）和两种牌号的高性能热塑性弹性体HYBRAR的共混物。通过观察共混物的结晶形态，研究共混物结晶性能以及测试共混物的透光率，结果表明：加入HYBRAR后，PP的主要晶型（α晶）不变，结晶温度升高，同时结晶尺寸变小，结晶度显著提高；PP／HYBRAR7125共混体系的结晶速率呈现不规律变化，而PP／HYBRAR7311体系则先降低再升高；加入HYBRAR后，PP的透光率明显提高。     

反应单体改性纳米CaCO3/PP母料的制备和性质研究

用溶液法制备了反应性单体改性PP包覆纳米CaC03母料，用IR、DSC和TGA等方法研究了母料中的化学作用、结晶与熔融行为、热稳定性和表面性质等。研究结果表明：反应性单体改性PP形成接枝物包覆纳米CaCO3，纳米CaCO3的质量分数高达80％。不同单体对PP结晶温度有不同的影响，结晶温度高低顺序为甲基丙烯酸甲酯〉丙烯酸甲酯〉丙烯酸丁酯。丙烯酸与苯乙烯混合物〉无单体。马来酸酐。丙烯酸〉苯乙烯。单体改性使母料接触角进一步提高。     

Crystallization and dynamic mechanical properties of polypropylene/polystyrene blends modified with maleic anhydride and styrene

Polypropylene (PP)/polystyrene (PS) blends modified with reactive monomers, such as maleic anhydride (MAH) and styrene (St), and in situ formed PP/PS blends were prepared by melting extrusion. The crystallization and melting behavior and the dynamic mechanical properties of the PP/PS blends, including the structure of the grafted copolymer, were investigated with differential scanning calorimetry, dynamic mechanical analysis, and Fourier transform infrared. The results indicated that the addition of MAH hardly influenced the crystallization temperature of PP in the blends, but the addition of MAH and St increased the crystallization temperature of PP in its blends. The blends showed no remarkable variety for the melting temperature, but the shapes of the melting peaks were influenced by the addition of the reactive monomers. In addition, a significant increase in the storage and loss moduli of all the modified PP/PS blends was observed. © 2005 Wiley Periodicals, Inc. J Appl Polym Sci 96: 2038–2045, 2005     

Supercritical carbon dioxide-assisted preparation of polypropylene grafted acrylic acid with high grafted content and small gel percent

This work was aimed at preparing polypropylene grafted acrylic acid (PP-g-AA) with high grafted content and small gel percent by using a supercritical carbon dioxide (scCO₂)-assisted solid-state free radical grafting process. The effects of various factors on both the grafted acrylic acid content and gel percent in PP-g-AA were investigated. Those factors included the reaction time, reaction temperature, CO₂ pressure, monomer and initiator concentrations. Results showed that self-polymerization of acrylic acid resulted in crosslinking of PP chains and production of gel in PP-g-AA. There exists an optimal reaction time to produce PP-g-AA with high grafted content and small gel percent at a certain temperature. Both the initial AA/PP mass ratio and CO₂ pressure constituted very sensitive process parameters that could control the gel percent and grafted content in PP-g-AA to a significant extent and with ease. The crystallization temperature, melting temperature and crystallinity increased with the increasing of the grafted content of PP-g-AA. Moreover, the PP-g-AA removal of gel has a higher thermal stability than the blank PP.     

Effects of carbon nanotubes on glass transition and crystallization behaviors in immiscible polystyrene/polypropylene blends

Functionalized multiwalled carbon nanotubes (FMWCNTs) have been introduced into immiscible polystyrene/polypropylene (PS/PP) blends. Not only the change in glass‐transition temperatures of PS and PP but also the crystallization and melting behaviors of PP have been investigated. The results show that FMWCNTs exhibit dual effects in the blends. One is that FMWCNTs, as a plasticizer for both PS and PP, induce the change in glass‐transition behaviors in both PS and PP. The other is that FMWCNTs, as a heterogeneous nucleating agent for PP, change the crystallization behavior of PP from homogeneous/bulk crystallization process to only bulk crystallization process. Further results show that the presence of FMWCNTs also induces the morphology change of the immiscible blends to a certain degree. POLYM. ENG. SCI., 2011. © 2011 Society of Plastics Engineers     

Preparation of polypropylene and polystyrene with NCO and NH2 functional groups and their applications in polypropylene/polystyrene blends

Isocyanate‐ and amine‐functionalized polypropylene (PP) and polystyrene (PS) were prepared through grafting and copolymerization method. These compounds are used as precursors for PP‐graft‐PS (PP‐g‐PS) copolymers and reacted at the matrix interface of PP/PS blends. Functionalized polymer structures were characterized by ¹H NMR and FTIR spectroscopy. The effects of the synthesized compatibilizer on the rheological and morphological behavior of PP/PS blends were investigated systematically. Results showed that the functional polymer was successfully synthesized, and the additional two different compatibilizer systems dramatically decreased the size of the dispersed phase domains in PP/PS blends. Compared with the uncompatibilized blends, compatibilized blends exhibited a slightly higher crystallization temperature because the melting points of the blend components were not evidently affected by the addition of compatibilizer, as revealed by differential scanning calorimetry. The compatibilizer effect on the PP/PS blends was reflected through rheological property and dynamic mechanical analysis. POLYM. ENG. SCI., 55:614–623, 2015. © 2014 Society of Plastics Engineers     

聚乳酸（PLA）／己二酸-对苯二甲酸-丁二酯共聚物（PBAT）／乙酰化柠檬酸三丁酯（ATBC）共混物的结晶行为

采用熔融共混法制备聚乳酸（PLA）／己二酸-对苯二甲酸-丁二酯共聚物（PBAT）／乙酰化柠檬酸三丁酯（ATBC）共混物。用差示扫描量热仪（DSC）和偏光显微镜（POM）分析了乙酰化柠檬酸三丁酯（ATBC）对共混物PLA结晶行为的影响。结果表明当PLA／PBAT含量为80／20（质量比）时,随着ATBC量的增加,PLA的Tg、Tc和Tm降低,结晶度提高,球晶生长速率增加。     

丙烯酸接枝聚丙烯的制备及其结构与性能

综述近年来国内外关于丙烯酸接枝聚丙烯(PP—g—AA)的制备方法,主要包括熔融接枝、固相接枝、辐射接枝、光引发接枝、悬浮接枝、溶液接枝和复合材料中的原位接枝法等,以及各种制备工艺和条件对接枝率的影响;并对PP—g—AA的结构与性能尤其是接枝丙烯酸后聚丙烯的结晶与熔融行为进行了详细阐述。     

Phase morphology,thermomechanical, and crystallization behavior of uncompatibilized and PP‐g‐MAH compatibilized polypropylene/polystyrene blends

In this article, we discuss the phase morphology, thermal, mechanical, and crystallization properties of uncompatibilized and compatibilized polypropylene/polystyrene (PP/PS) blends. It is observed that the Young's modulus increases, but other mechanical properties such as tensile strength, flexural strength, elongation at break, and impact strength decrease by blending PS to PP. The tensile strength and Young's modulus of PP/PS blends were compared with various theoretical models. The thermal stability, melting, and crystallization temperatures and percentage crystallinity of semicrystalline PP in the blends were marginally decreased by the addition of amorphous PS. The presence of maleic anhydride‐grafted polypropylene (compatibilizer) increases the phase stability of 90/10 and 80/20 blends by preventing the coalescence. Hence, finer and more uniform droplets of PS dispersed phases are observed. The compatibilizer induced some improvement in impact strength for the blends with PP matrix phase, however fluctuations in modulus, strength and ductility were observed with respect to the uncompatibilized blend. The thermal stability was not much affected by the addition of the compatibilizer for the PP rich blends but shows some decrease in the thermal stability of the blends, where PS forms the matrix. On the other hand, the % crystallinity was increased by the addition of compatibilizer, irrespective of the blend concentration. © 2015 Wiley Periodicals, Inc. J. Appl. Polym. Sci. 2015 , 132, 42100.     

PP／PET合金纤维的形态和热性能研究

用聚丙烯接枝丙烯酸(PP-g-AA)作增容剂,制备了PP／PET共混合金纤维。对合金纤维碱处理后的表面以及拉伸断裂后的断面形态进行SEM观察,结果表明分散相PET原位形成微纤。DSC研究结果显示,PET在复合体系中起到了异相成核的作用,使PP的结晶速率加快,同时发现加有增容剂PP-g-AA的结晶性能稍有下降,说明增容剂起到了良好的增容效果。     

Nonisothermal crystallization kinetics of polypropylene/polypropylene‐g‐polystyrene/polystyrene blends

The nonisothermal crystallization kinetics of polypropylene (PP), PP/polystyrene (PS), and PP/PP‐g‐PS/PS blends were investigated with differential scanning calorimetry at different cooling rates. The Jeziorny modified Avrami equation, Ozawa method, and Mo method were used to describe the crystallization kinetics for all of the samples. The kinetics parameters, including the half‐time of crystallization, the peak crystallization temperature, the Avrami exponent, the kinetic crystallization rate constant, the crystallization activation energy, and the F(T) and a parameters were determined. All of the results clearly indicate that the PP‐g‐PS copolymer accelerated the crystallization rate of the PP component in the PP/PP‐g‐PS/PS blends. © 2010 Wiley Periodicals, Inc. J Appl Polym Sci, 2011