不同分子量壳聚糖对蒙脱土插层复合物的影响

于醋酸溶液中通过溶液插层技术将不同分子量的壳聚糖与钠基蒙脱土进行插层复合,制备了系列壳聚糖/蒙脱土插层复合物. 通过XRD、TEM、FTIR测试技术对插层复合物的结构进行了表征. 结果表明,仅通过醋酸溶液处理,残留的HAc就可使MMT层间距由原来的1.3 nm增加至1.55 nm,并使结构规整性提高;降低壳聚糖分子量有利于MMT层间距增大,并出现更多剥离形态的蒙脱土;当壳聚糖分子量为4.1×104时,最大层间距可达2.48 nm,但进一步降低壳聚糖分子量层间距反而略微减小;红外光谱分析表明,插层复合物中壳聚糖与蒙脱土间存在明显的静电作用. TGA分析结果表明,插层复合物中壳聚糖的含量随分子量的降低而增加,残留的醋酸使插层复合物中壳聚糖的热稳定性能下降.     

插层法悬浮聚合制PMMA/蒙脱土纳米复合材料

文献中蒙脱土的有机化处理一般采用一次插层法处理 ,本文采用了一种新的二次插层法 ,通过对一次插层法和二次插层法插层效果的比较 ,确定了二次插层法为一种理想的蒙脱土有机化方法 .经过MMA对蒙脱土插层的悬浮聚合 ,FT IR ,XRD和SEM等试验结果证明蒙脱土已经被有效地撑开 ,但发现蒙脱土的加入会降低聚合反应的转化率和聚合物的收率 ,悬浮聚合物颗粒的形态变得不规则 ,粒径也变大 .差热分析、溶解实验和应力 应变测试均表明蒙脱土的加入能提高PMMA的性能 ,蒙脱土的最佳用量在 3 %左右 .     

基于胶束插层方法制备高热稳定性和大层间距有机化蒙脱土

采用不同方法制备了多种有机化蒙脱土,并分别采用X射线衍射仪、红外光谱分析仪、热重分析仪、电感耦合等离子体发射光谱仪、元素分析仪、扫描电子显微镜对产物进行了表征,并提出了有机物插层新方式——胶束插层.结果表明:适量钠基蒙脱土(Na-MMT)、十六烷基三甲基溴化铵(CTAB)和磷酸三苯酯(TPP)在丙酮/水的混合溶剂中进行溶液插层,得到的有机化蒙脱土具有更大的层间距,比单纯采用CTAB的插层效果显著.产物中含有约21.54%的CTAB和17.47±1.05%的TPP,插层机理为CTAB-TPP胶束插层.该有机化蒙脱土的初始热降解温度比单纯CTAB插层蒙脱土最多提高了17.4℃.采用该方法制备的改性蒙脱土既可以进一步提高蒙脱土的层间距,又可以封闭TPP于MMT的片层间,阻止TPP挥发;同时克服季铵盐改性蒙脱土的热稳定性低的问题,得到了层间距大、热稳定性高的有机化蒙脱土,为有机化蒙脱土在高熔点聚合物改性方面提供了条件.     

氯硅烷改性蒙脱土的制备与性能

基于氯硅烷与羟基的反应性,用氯硅烷对蒙脱土进行化学改性,FTIR证实硅烷已接枝到了蒙脱土上,WAXD表明,在极性分散剂中,硅烷成功地插层到了蒙脱土的片层间;而在非极性分散剂中,硅烷插层到蒙脱土片层间的量少,测定了蒙脱土阳离子交换容量(CEC),改性后其CEC值大幅度降低,分散性实验表明,由于改性后的蒙脱土颗粒以及片层间的相互作用力得到极大降低,其在水中和甲苯中的分散性更好.     

不同链长的聚醚铵阳离子协同插层对蒙脱土性能的影响

为了制备高性能的聚合物/蒙脱土纳米复合材料, 必须对蒙脱土(MMT)进行有机改性来改善蒙脱土表面的疏水性、提高蒙脱土与聚合物之间的相容性, 同时也需要尽可能地增大蒙脱土的层间距. 为此, 提出了一种采用不同链长的聚醚铵阳离子协同插层MMT 的新方法, 即采用D2000(或T5000)聚醚铵盐与D400 聚醚铵盐协同插层MMT, 并采用X射线衍射分析(XRD)和热重分析(TGA)研究了协同插层对改性MMT 的层间距、有机含量以及耐热性的影响. 另外, 也研究了插层过程中的搅拌方式和D400 聚醚铵盐多次插层对改性MMT 的层间距、有机含量等的影响. 研究结果表明,采用长链聚醚铵阳离子协同插层更有利于提高D400 聚醚铵盐改性MMT 的层间距和有机含量; T5000 协同插层MMT中总的有机含量(64.06%)进一步增加, 这可能是因为T5000 的支链在MMT 层间形成的笼型结构既提供了更大的空隙,又起到了屏蔽作用, 同时也得到了较大的层间距(6.86 nm).     

熔体插层制备尼龙6/蒙脱土纳米复合材料的性能表征

通过熔体插层成功地制备了尼龙６／蒙脱土纳米复合材料，测试了力学性能、耐热性能和耐溶剂性．通过ＴＥＭ、ＷＡＸＤ、ＤＳＣ等手段，研究了结构与结晶行为，并与插层聚合的尼龙６／蒙脱土纳米复合材料进行了对比．实验表明通过熔体插层可使尼龙６基体插层于蒙脱土中，所得到的复合物的性能较尼龙６有很大提高，且与插层聚合的尼龙６／蒙脱土纳米复合材料的性能相当．     

丙烯酸树脂／蒙脱土纳米复合材料的制备研究

采用离子交换法,用十六烷基三甲基溴化铵对钠基蒙脱土(Na-MMT)进行改性制备了有机蒙脱土(OMMT).用丙烯酸(AA)、硫酸化蓖麻油、乳化剂OP-10、过硫酸钾为原料进行水溶液聚合制得丙烯酸树脂.将丙烯酸树脂与改性蒙脱土通过聚合插层制备了丙烯酸树脂/ 蒙脱土纳米复合材料.通过傅立叶变换红外(FTIR)和X-射线衍射 (XRD)等手段对复合材料的结构进行了表征,结果表明:丙烯酸树脂插层进入有机蒙脱土内可形成插层型或剥离型的纳米复合材料.蒙脱土含量及蒙脱土与丙烯酸树脂的反应温度、反应时间均对复合材料的剥离行为产生影响,在蒙脱土含量为树脂固含量的7%、温度为70℃、反应4h的条件下可得到完全剥离的纳米复合材料.     

静电自组装聚电解质/有机染料插层蒙脱土光致变色纳米复合膜

从构筑静电自组装聚电解质／有机染料插层蒙脱土光致变色纳米复合膜所必需 的基本纳米构件--有机染料插层蒙脱土光致变色纳米复合物的设计出发，制备了具有光致 变色功能的蒙脱土／阳离子偶氮染料（GTL）均插层纳米复合物现，插人蒙脱土层 间的GTL热稳定性大幅度提高．由于GTL在纳米受限空间的超分子有序结构共轭，使 偶氮基发生了高达91 nm的显著红移．使用该插层纳米复合物构件与阳离子聚电解 质（PDAC）通过静电自组装得到了生长均匀、排列规整有序的光致变色聚电解质／ 阳离子偶氮染料插层蒙脱土纳米复合膜.     

原位反应法制备镍三乙烯四胺配合物/蒙脱土纳米复合体

将蒙脱土的硅酸盐晶层空间作为微反应场所,用微波加热先将钠基蒙脱土转化为镍基蒙脱土,再引入三乙烯四胺配体,使配体与镍离子在蒙脱土层间原位发生配位反应,制得配合物/蒙脱土纳米复合体.XRD结果表明蒙脱土的层间距在引入三乙烯四胺后明显变大.紫外可见漫反射光谱、热分析和元素分析结果表明三乙烯四胺与N i2+离子在蒙脱土层间形成了配合物.     

光诱导聚合蒙脱土插层纳米复合材料的研究

用两种光聚合法研究了蒙脱土插层复合材料的制备.用小角X光衍射技术对产物内蒙脱土的结构进行表征,结果表明,蒙脱土经改性后能很好地使聚合单体及预聚物插入黏土层内并在光照下"就地”聚合生成光聚合复合材料.对光聚合法制备蒙脱土纳米复合材料的优缺点进行了初步讨论.     

Preparation and Barrier Properties of Chitosan-Layered Silicate Nanocomposite Films

Summary: In this study, chitosan nanocomposite films were prepared using a solvent-casting method by incorporation of an organically modified montmorillonite (Cloisite 10A). The effect of filler concentration on the water vapor permeability, oxygen permeability, mechanical and thermal properties of the composite films was evaluated. The structure of nanocomposites and the state of intercalation of the clay were characterized by XRD. The water vapor permeability of pure chitosan films was measured as a function of relative humidity (RH). It was found that the permeability value increased with an increase in RH. The water vapor and gas permeability values of the composite films decreased significantly with increasing filler concentration. Permeation data was fitted to various phenomenological models predicting the permeability of polymer systems filled with nanoclays as a function of clay concentration and aspect ratio of nanoplatelets. According to the XRD results, an increase in basal spacing was obtained with respect to pure clay for chitosan/clay nanocomposites. This demonstrated the formation of intercalated structure of clay in the polymer matrix. Tensile strength and elongation at break of the composites increased significantly with the addition of clay, however the thermal and color properties of the films were not much affected by the intercalation of clay into polymer matrix.     

Molecular mobility of chitosan and its interaction with montmorillonite in composite films: Dielectric spectroscopy and FTIR studies

The interaction of chitosan in the basic form with montmorillonite at different concentrations in composite films is studied with the use of dielectric spectroscopy and FTIR measurements. It is shown that the interaction of amino groups and primary hydroxyl groups of chitosan with local charges on the surfaces of montmorillonite nanoparticles is responsible for a change in the system of intramolecular and intermolecular hydrogen bonds that is typical for polysaccharides. The glass-transition temperature of chitosan in the composite systems is measured.     

有机硅橡胶/蒙脱土纳米复合弹性印章的制备

聚二甲基硅氧烷硅橡胶(PDMS)是用于制作软刻蚀技术[1,2]中弹性印章的最常用材料, 但使用单一的硅橡胶制作的印章存在易变形、易溶胀等缺点. 本文用有机蒙脱土(MMT)和硅橡胶进行插层纳米复合改性, 用树脂固化仪对复合体系进行固化行为分析和固化配方优化, 并对复合材料的耐溶胀性能及其弹性印章的表面形貌进行观察比较.     

Surface properties of chitosan composites with poly(<Emphasis Type="Italic">N</Emphasis>-vinylpyrrolidone) and montmorillonite

Surface properties of composites containing chitosan (Ch) with poly(N-vinylpyrrolidone) (PVP) and montmorillonite (MMT) additives were investigated by contact angle measurements, thermogravimetric analysis (TGA), atomic force microscopy (AFM) and tensile tests. Composites were obtained by drop casting suspensions of montmorillonite (1 wt % relative to chitosan) and polymer (1 wt %) in 0.1 mol/dm³ acetic acid. Contact angle measurements for diiodomethane (D) and glycerol (G) on the surfaces of the chitosan films, PVP and their composite films were made; surface free energies were also calculated. It was found that the PVP/MMT or Ch/PVP/MMT blend surface is enriched with a high surface energy component, i.e., polyvinylpyrrolidone. The roughness of chitosan composites increases after the addition of montmorillonite; this may indicate an increase in the heterogeneity of this composition in comparison to other compositions. The TGA thermograms and mass loss percentages at different decomposition temperatures showed that the thermal stability of the binary composite slightly increases upon the addition of polyvinylpyrrolidone. The mechanical properties such as tensile strength and Young modulus depend on the composition and varied non-uniformly.     

Optimization of microfluidization for the homogeneous distribution of cellulose nanocrystals (CNCs) in biopolymeric matrix

Microfluidization, which is a high-pressure homogenization technique, was used to develop highly dispersed cellulose nanocrystal (CNC) reinforced chitosan based nanocomposite films. A three factor central composite design with five levels was designed to systematically optimize the microfluidization process. The three factors were the CNC content, the microfluidization pressure and the number of microfluidization cycles. Response surface methodology was used to obtain relationship between the mechanical properties of the nanocomposite films and the factors. Polynomial equations were generated based on the regression analysis of the factors and the predicted properties of the nanocomposite films were in good agreement with the experimental results. Microfluidization effectively reduced the CNC–chitosan aggregates and improved the mechanical properties of the nanocomposite films. Microscopic analysis of the microfluidized nanocomposite films revealed a 10–15 times reduction in the size of the aggregates compared to the non-microfluidized CNC/chitosan films and an increase in the root mean square surface roughness (Rq).     

Nacre-inspired green artificial bionanocomposite films from the layerby-layer assembly of montmorillonite and chitosan

The simple LBL technique was introduced to fabricate green nacre-like chatosan/montmorillonite(CHI/MMT) films. The results of SEM and XRD analysis demonstrate that the produced CHI/MMT composites films stacked densely together to bring out well-defined nacre-like brick-mortar structure. The nanoindentation technique is used to characterize the mechanical properties of the layered nanocomposite films, which show enhanced mechanical modulus(up to ～6.64 GPa) compared with the pure chitosan.     

尼龙6/蒙脱土纳米复合材料非等温结晶动力学和透明性研究

将有机化的蒙脱土与尼龙6(PA6)在Haake共混机中共混,制备出尼龙6/蒙脱土纳米复合材料(PA6N);对尼龙6/蒙脱土纳米复合材料和纯尼龙6分别进行差示扫描量热法非等温结晶试验,以了解蒙脱土在尼龙6/蒙脱土纳米复合材料中的成核作用、扩大尼龙6在包装领域的应用范围.与此同时,采用偏光显微镜测定了样品的结晶形态;采用紫...     

Specific features of chitosan-montmorillonite interaction in an aqueous acid solution and properties of related composite films

The rheological properties of chitosan solutions in a 2% aqueous solution of acetic acid with added montmorillonite nanoparticles and the mechanical properties and structural organization of chitosan-based composite films are studied. The interaction between the polymer functional groups and surface charges of nanoplatelets is confirmed by conductometric and potentiometric measurements. With the use of a X-ray diffraction analysis, it is shown that the nanoparticles in films are in the exfoliated and intercalated states. The incorporation of up to 10 wt % modified montmorillonite nanoparticles into the chitosan matrix results in a successive increase in rigidity and a decrease in the elongation at break.     

A new method combining modification of montmorillonite and crystal regulation to enhance the mechanical properties of polypropylene

This study focused on montmorillonite modification and crystal structure regulation, to prepare polypropylene/montmorillonite composites with high stiffness and toughness simultaneously. A kind of organic montmorillonite was prepared successfully through a new and simple method, which was introducing Fe³⁺ and stearic acid into interlamination of montmorillonite. The maximum interlayer spacing of organic montmorillonite could be expanded from 1.25 nm to 4.66 nm, and the organic montmorillonite formed an intercalated structure in matrix during melting process. The production of β crystal induced by TMB-5 could solve the problem of embrittlement. The reinforcing effect of montmorillonite combined with toughening of TMB-5 was expected to endow composite with balanced stiffness and toughness, presenting improvement simultaneous in the tensile modulus, flexural modulus and impact strength by 21.0%, 31.4%, 49.6% respectively compared to PP. This paper provided a new and facile method in modification of MMT and a strategy to optimize overall mechanical performance of nanocomposite.     

两性纳米复合高吸水性树脂的结构与性能

通过丙烯酸钠、阳离子单体丙烯酰氧乙基三甲基氯化铵(DAC)与钠蒙脱土原位溶液聚合成功地制备了具有插层结构的两性纳米复合高吸水性树脂. 其吸水性树脂吸水倍率和凝胶的抗压强度相对于聚丙烯酸钠基质均有较大提高. 吸水倍率最高可达2 380 g/g, 而凝胶的抗压强度提高到基质的180%左右. 由于复合材料结构上具有两性基团, 表现出对环境pH值特殊的应答性. 同时, 阳离子单体DAC的加入影响体系纳米结构的形成.