SMA-β-环糊精聚合物制备及其对水中亚甲基蓝的吸附性能

用β-CD与苯乙烯-马来酸酐交替共聚物(SMA)反应,制备了β-CD质量分数为49.8%的水不溶性SMA-β-CD,并用IR、元素分析及热分析表征。以SMA-β-CD为吸附剂,研究了25℃下SMA-β-CD对水中亚甲基蓝(MB)的吸附性能。结果表明,吸附性能随体系p H升高而提高,吸附在120 min内达到平衡。固液比为0.25g/L时,SMA-β-CD对20 mg/L的MB的吸附率为100%;固液比为0.5 g/L时,对213.6 mg/L的MB吸附率达98%。SMA-β-CD对MB的吸附符合Langmuir模型,由Langmuir方程求得的最大吸附量为316.4 mg/g;吸附符合拟二级动力学模型。     

回收PC/回收ABS共混体系的性能与结构

利用叶片挤出机制备回收PC/回收ABS共混材料,研究叶片挤出机的加工特性对共混体系的作用,分析了苯乙烯/马来酸酐共聚物(SMA-700)、苯乙烯/丙烯腈/马来酸酐三元共聚物(SMA-800)以及ABS接枝马来酸酐(ABS-g-MAH)这3种相容剂对共混物的力学性能、耐热性、熔体指数及形态结构的影响。结果表明:叶片挤出机能有效促进回收ABS相在回收PC基体中的细化分散,适当用量的相容剂能有效提高共混体系的相容性,增强界面粘结力,SMA-700、SMA-800和ABS-g-MAH添加量分别为6%、2%、6%时共混体系的综合性能最佳。     

纳米二氧化硅颗粒表面接枝改性的研究

本工作选择马来酸酐和苯乙烯单体在纳米二氧化硅粒子表面进行接枝改性,首先对纳米粒子进行烷基化处理,引入双键,然后引发聚合,使得马来酸酐和苯乙烯与纳米粒子之间形成化学键合。详细研究了各种聚合条件(引发剂浓度、单体加入量的比例、反应温度等)对接枝效果的影响,认为烷基化改性后的纳米二氧化硅粒子在聚合体系中充当极性溶剂中心的作用,控制马来酸酐和苯乙烯在粒子表面的接枝。     

纳米碳化硅对超高分子量聚乙烯性能的影响

以纳米碳化硅(SiC)为改性剂,马来酸酐接枝聚乙烯为相容剂,用挤出成型的方式制备了超高分子量聚乙烯(UHMWPE)/纳米SiC复合材料,并对该复合材料的耐热性、微观形貌及力学性能进行了测试。在SiC用量一定的条件下,初步探究了相容剂用量及SiC在相容剂作用下对复合材料热性能的影响。结果表明:马来酸酐接枝聚乙烯用量为3%时,复合材料的耐热性提升最为显著;纳米SiC用量为5%时,在基体中分散效果最好,复合材料的耐热性与力学性能提升最为显著。     

Ni-SiC纳米复合镀层耐高温氧化性能的分析

对Watts镀镍层以及添加纳米SiC的复合镀镍层的耐高温氧化性能进行了比较分析.热重和差示扫描量热试验表明,添加纳米SiC并不能明显改善镀层的耐高温氧化性能,但添加15 g/L的纳米SiC可以提高复合镀层晶面结构的热稳定性,将(111)晶面向(200)晶面转化的温度由原来的325 °C提高到365 °C.X射线衍射分析表明,添加纳米SiC会改变镀镍层的结晶取向,由原来以(200)为主,(111)为辅转变为以(111)为主,(200)为辅.经400 °C高温氧化处理后镀层的晶面结构以(200)为主,(111)为辅;经800 °C高温氧化出现氧化产物NiO和Fe3O4.     

纳米金刚石爆轰黑粉化学复合镀层的耐磨性能

采用在化学镀液中添加纳米金刚石爆轰黑粉的方法,在20#钢基体上共沉积了Ni–P–纳米金刚石复合镀层,重点研究了复合镀层的耐磨特性和金刚石含量、表面活性剂及热处理等工艺因素对复合镀层摩擦磨损性能的影响,并初步探索了复合镀层的耐磨机制。结果表明:纳米金刚石爆轰黑粉化学复合镀层具有优异的耐磨性能,黑粉中的石墨成分可起到自润滑作用。复合镀液中金刚石黑粉含量为8g/L,不添加表面活性剂,镀层热处理温度为360°C时,镀层耐磨性能最佳。     

玉米淀粉/TiO2纳米复合薄膜制备与性能

以玉米淀粉为基质,结合纳米Ti O₂,通过超声分散采用流延法制备了可生物降解的淀粉/Ti O₂纳米复合薄膜,研究了纳米Ti O₂对薄膜拉伸性能、阻隔性能及抗菌活性的影响,采用扫描电子显微镜(SEM)、红外光谱仪(FTIR)和X射线衍射仪(XRD)对复合膜的微观形貌和结构进行了表征。结果表明,淀粉/Ti O₂纳米复合膜中Ti O₂与淀粉分子间存在缔合作用,含适量Ti O₂的复合膜组分之间有良好的相容性,与淀粉膜相比,纳米复合膜的拉伸性能和水蒸气阻隔性能得到有效改善,含0.8%Ti O₂(质量分数,下同)的纳米复合膜拉伸强度为7.54 MPa,比淀粉膜提高了53.9%,水蒸气透过系数为5.50×10^-5 g/(mm·d),较淀粉膜降低了23.5%,该复合膜同时表现出较好的紫外线隔离性能及抗菌活性。     

纳米ZnO/纤维素纳米晶/聚乙烯醇复合膜的制备及性能

采用球磨法制备的纤维素纳米晶(CNC)及市售纳米ZnO对聚乙烯醇(PVA)进行改性,改善了PVA膜的力学性能,并且,赋予其抗菌性,测试复合膜的力学性能、水蒸气透过性能及抗菌性能。结果表明,加入CNC后,提高了PVA膜的力学性能和阻湿性能,加入纳米ZnO后,复合膜对金黄色葡萄球菌具有一定的抗菌性能,并且,能进一步提高复合膜的拉伸强度,但是,降低了复合膜的阻湿性能。当CNC的添加量为3%、纳米ZnO∶CNC=2∶1(摩尔比)时,复合膜综合性能较好,拉伸强度为73.7 MPa,与纯PVA膜相比,提高了77.2%;断裂伸长率为3.8%,与纯PVA膜相比,提高了46.1%;水蒸气透过系数为3.44×10^-13 g·cm/(cm²·s·Pa),与纯PVA膜相比,提高了11.7%。     

溶胀接枝法制备具有微-纳米表面结构的苯乙烯-丁二烯-苯乙烯接枝共聚物(英文)

中对苯乙烯-丁二烯-苯乙烯嵌段共聚物(SBS)与马来酸酐进行了溶胀接枝反应,当接枝率控制在11.5%时可以获得微-纳米表面粗糙结构的接枝聚合物,水在SBS接枝共聚物的表面接触角明显减小。关键词:苯乙烯-丁二烯-苯乙烯嵌段共聚物;溶胀接枝法;微-纳米表面结构;表面接触角     

SMA/MMT纳米复合材料的制备

采用原位插层法制备了苯乙烯-马来酸酐共聚物／蒙脱土（SMA／MMT）纳米复合材料,采用X射线衍射研究了苯乙烯与马来酸酐的配比、蒙脱土用量、引发剂浓度、溶剂类型、聚合温度等因素对插层效果的影响。结果表明,当MMT的用量为3％（质量分数＋下同）时,可制得剥离型的SMA／MMT纳米复合材料;当苯乙烯与马来酸酐的质量比为1：1,MMT用量为15％、引发剂用量为1％、以丁酮为溶剂、聚合温度为90℃时,可制备出部分剥离型的SMA／MMT纳米复合材料。     

蛭石/PBAT复合薄膜的制备与性能

使用蛭石（VMT）作为填料,以可生物降解的聚对苯二甲酸-己二酸丁二醇酯（PBAT）作为基体,采用熔融-吹塑法制备出蛭石/聚对苯二甲酸-己二酸丁二醇酯（VMT/PBAT）复合薄膜,并通过添加聚苯乙烯马来酸酐共聚物（SMA）作为相容剂制备了VMT/PBAT/SMA复合薄膜。对纯PBAT薄膜、VMT/PBAT和VMT/PBAT/SMA复合薄膜的热性能、流变性能、水蒸汽阻隔性能、断面微观结构和力学性能进行了测试。结果表明,相比纯PBAT薄膜,蛭石的填充使VMT/PBAT复合薄膜的热稳定性降低,相容剂SMA的添加增强了VMT/PBAT/SMA复合薄膜的热稳定性;蛭石的添加使复合薄膜的结晶度降低了约2%。水蒸汽透过量测试表明,两种复合薄膜水蒸汽阻隔性能符合国家标准;VMT的添加使VMT/PBAT复合薄膜的拉伸强度和断裂伸长率降低,而添加相容剂SMA使VMT/PBAT/SMA复合薄膜的拉伸强度和断裂伸长率相比VMT/PBAT复合薄膜提高约10 %。     

Thermal and mechanical properties of polypropylene nanocomposite materials reinforced with cellulose nano whiskers

We use polypropylene (PP, an apolar polymer) and cellulose nano whiskers (CNW, a polar material) to produce nano polymer composites with enhanced mechanical and thermal properties. To improve compatibility, maleic anhydride grafted PP has also been used as a coupling agent. To enhance the uniform distribution of CNW in the composite, the matrix polymer is dissolved in toluene, and sonification and magnetic stirring are applied. Good film transparency indicates uniform CNW dispersion, but CNW domains in the composite film observed under an scanning electron microscope may indicate slight agglomeration of CNW in the composite film. The tensile strength of the composite compared with neat PP improves by 70–80% with the addition of CNW. The crystallinity has also been improved by about 50% in the CNW reinforced samples. As the content of CNW increases, the composite exhibits higher thermal degradation temperature, higher hydrophilicity, and higher thermal conductivity. © 2012 Wiley Periodicals, Inc. J Appl Polym Sci, 2012     

Preparation of flexible and transparent SMA films by simple composite with MBS potential for negative birefringence compensator

The brittleness of poly(styrene maleic anhydride) (SMA) was improved by compositing with elastic poly(methyl methacrylate‐butadiene‐styrene) (MBS) to develop it into optical film. Transparent and flexible SMA films were prepared, and the flexibility of them was checked by folding endurance test and folding bend. The transparence of SMAMBS films were proved by the transmittance and haze measurements. In actual view, the letters could be clearly observed while they were covered by prepared films. The thermal stability of them was confirmed by DSC and TGA analysis. These physical properties of films are comparable to that of polycarbonate which is widely used as optical film. Besides of these, mechanical and fracture properties of them were found to be also suitable for this purpose. Furthermore, negative birefringence could be obtained by orientationally stretching them. Such results indicate that, films prepared from composites are competent for negative birefringence optical compensator in the field of liquid crystal display. © 2010 Wiley Periodicals, Inc. J Appl Polym Sci, 2011     

Hole structure and its formation in thin films of hydrolyzed poly(styrene maleic anhydride) alternating copolymers

Maleic anhydride moieties on the backbone chains of poly(styrene maleic anhydride) alternating copolymer (SMA) hydrolyzed in a THF solution containing water and hydrochloric acid. Well‐arrayed holes were obtained in spin‐cast thin hydrolyzed SMA films on a single crystal silicon wafer, and the hole diameter and its distribution were measured with AFM data. Results showed that the hole size was almost uniform, and was influenced by water content when spin speed was kept unchanged. The THF solution with a SMA concentration of about 1 g/mL and weight ratio H₂O/SMA of 1/3 produced holes having an average diameter of 0.60 μm and depth of 206.12 nm, when cast at a spin speed of 1400 rpm. It was noted that the formation of the holes in thin hydrolyzed SMA film was different from the dewetting process in thin homopolymer films, but was associated with the intrinsic properties of the copolymer forming the films. The surfactant effect of hydrolyzed SMA was suggested to interpret the formation of the holes. The holes were described to be the traces of water droplets that were emulsified by the hydrolyzed SMA during casting. © 2000 John Wiley & Sons, Inc. J Appl Polym Sci 75: 267–274, 2000     

Mechanical properties and water absorption of low‐density polyethylene/sawdust composites

The mechanical properties and water absorption of low‐density polyethylene/sawdust composites were investigated. The relationship between the filler content and the composite properties was also studied. Different degrees of esterification of the sawdust with maleic anhydride were obtained with different reaction times. The experimental results demonstrated that the treatment of sawdust by maleic anhydride enhanced the tensile and flexural strengths. The water absorption for maleic anhydride treated sawdust indicated that it was more hydrophobic than untreated sawdust. The effects of the addition of benzoyl peroxide during the preparation of composite samples on the water absorption and mechanical properties were also evaluated. © 2007 Wiley Periodicals, Inc. J Appl Polym Sci, 2008     

Research on the Combustion Properties of Propellants with Low Content of Nano Metal Powders

A comparison of various experimental results for combustionrelated properties evaluation, including burning rates, deflagration heat, flame structures and thermal decomposition properties, of AP/RDX/Al/HTPB composite propellants containing nano metal powders is presented. The thermal behavior of n‐Al (nano grain size aluminum) and g‐Al (general grain size aluminum i.e., 10 μm) heated in air was also investigated by thermogravimetry. The burning rates results indicate that the usage of bimodal aluminum distribution with the ratio around 4 : 1 of n‐Al to g‐Al or the addition of 2% nano nickel powders (n‐Ni) will improve the burning behavior of the propellant, while the usage of grading aluminum powders with the ratio 1 : 1 of n‐Al to g‐Al will impair the combustion of the propellant. Results show that n‐Al and n‐Ni both have a lower heating capacity, lower ignition threshold and shorter combustion time than g‐Al. In addition n‐Al is inclined to burn in single particle form. And the thermal analysis results show that n‐Ni can catalyze the thermal decomposition of AP in the propellant. The results also confirm the high reactivity of n‐Al, which will lead to a lower reaction temperature and rather higher degree of reaction ratio as compared with g‐Al in air. All these factors will influence the combustion of propellants.     

The RF plasma surface chemical modification of nanodiamond films grown on glass and silicon at low temperature

Glass slides (standard 1 × 3 in. size) coated with nanocrystalline diamond were successfully tested for DNA immobilization. The nanodiamond films were grown on glass substrates at temperature below 400 °C, while keeping the excellent material properties of diamond, such as low background luminescence and high optical transparency. The nanodiamond surface to which proteins were attached was functionalized by ultra-thin amino-polymer film in the radio-frequency (RF) plasma discharge of vaporized organosilane coupling agent N-(6-aminohexyl) aminopropyl trimethoxysilane (AHAPS). Several different IR spectroscopy methods (transmission and reflection–absorption spectroscopy (IRRAS), attenuated total reflectance (ATR) and grazing angle reflectance (GAR)) are discussed with respect of their ability of detecting the functional groups on bio-functionalized diamond surface. The IR absorbance spectra of just a few nm thick RF plasma polymer films deposited on nanodiamond surface are presented.     

Wood-fiber reinforcement of styrene–maleic anhydride copolymers

Styrene–maleic anhydride (SMA) copolymers containing either 7 or 14% maleic anhydride were filled with either pine flour or dry-process aspen fiber from a medium density fiberboard (MDF) plant. Material properties of the filled and unfilled SMA plastics were compared with those of aspen-fiber-filled and unfilled polystyrene (PS). The fiber-filled SMA composites were equivalent or superior to unfilled SMA in strength, stiffness, and notched Izod impact strength. Filled PS composites outperformed or matched the performance of filled SMA composites in the parameters tested. Unnotched Izod impact strength of filled polymers was generally inferior to that of the unfilled polymers. Water absorption from a 90% relative humidity exposure, a 24-h soak, and a 2-h boil showed mixed results when compared to the unfilled polymers. Dynamic mechanical analysis showed no change in glass transition temperature (T_g) after the addition of filler for either SMA or PS composites. The presence of the anhydride functionality on the polymer backbone did not appear to improve the strength of the composite. No evidence was found for chemical bond formation between the SMA and wood fiber. © 1998 John Wiley & Sons, Inc. J Appl Polym Sci 68: 1567–1573, 1998     

Preparation of gelatin-based films modified with nanocrystalline cellulose

Gelatin is a natural biological macromolecule derived from the collagen in the connective tissue of the skin, bone and other tissues. It has been widely used in medicine, food and industrial production and other fields for easy molding, excellent compatibility and biodegradability. However, physical and chemical disadvantages impede its further application, seriously. Therefore, modification of the gelatin films becomes more and more important. In this study, the gelatin/nanocrystalline cellulose (NCC) composite films were prepared by casting method with 4% glycerol as plasticizer. The effect of NCC on the properties of the composite films was investigated by the characterization of its morphology and mechanical, thermal, and optical properties and water adsorption. The results showed that mechanical, thermal stability and water absorption properties of the gelatin/NCC composite film were obviously improved. The composite films showed the highest tensile strength (13.56?±?0.25 MPa) when the mass concentration of NCC was 0.6%. Adding NCC to gelatin benefited the thermal stability of composite films. The gelatin/NCC composite film of 0.4% NCC had the highest melting transition temperature (138.9 °C). The composite films exhibited the lower water absorption (271.1%) when mass concentration of NCC was 1.0%. Thus, these results indicated that NCC could affect the properties of gelatin-based composite films, and showed it has potential for application in food packing.     

淀粉/聚乙烯醇/蒙脱土复合材料的制备及性能研究

采用熔融挤出法制备了淀粉/聚乙烯醇/蒙脱土三元复合材料。通过对力学测试、DSC、SEM、维卡软化点的分析,研究了PVA和酸酐的含量对材料的力学性能、热性能、吸水率的影响,并讨论了蒙脱土的加入对体系性能的影响。研究发现,适量的顺丁烯二酸酐能够降低淀粉分子链间的氢键作用,并促使其晶区的破坏,从而改善淀粉的加工性能、力学性能以及耐水性,当加入2.5%顺丁烯二酸酐时,材料的拉伸强度提高了60.54%;随着PVA含量的增加,体系力学性能增强,吸水率降低。蒙脱土的加入改善了其加工性能,并有效地提高了材料的力学性能、耐水性以及热稳定性。SEM显示,复合材料各组分之间的相容性较好,淀粉得到良好的塑化。