四氨基酞菁锌负载二氧化硅纳米粒子的合成及其对细胞毒性的研究

通过在无极核微乳液中水解乙烯基三乙氧基硅烷(TEVS)和3-氨丙基三乙氧基硅烷(APTES),制备了疏水性光敏剂-2,9,16,23-四氨基酞菁锌负载的表面带有正电荷的二氧化硅纳米粒子(SiO2@ ZnPc( NH2)4).通过透射电镜(TEM)、Zetasizer Nano-ZS粒度仪(DLS)、紫外-可见分光光度计...     

聚γ-(β-氰乙基)胺丙基硅氧烷铂配合物的合成与催化性能

γ-氨丙基三乙氧基硅烷与丙烯腈反应，得到γ-(β-氰乙基)胺丙基三乙氧基硅烷。后者用气相法二氧化硅固载，再与氯亚铂酸钾反应，合成了聚γ-(β-氰乙基)胺丙基硅氧烷铂配合物。研究了它对不饱和烃与三乙氧基硅烷的硅氢加成反应的催化特性。     

1,1-二苯基(或4,4'-二溴二苯基)-3-(3-三乙氧基硅基)丙基脲的合成

以三乙胺为缚酸剂,二苯胺和4,4'-二溴二苯胺分别与三光气反应制得N,N-二苯基氨基甲酰氯(2a)和N,N-(4,4'-二溴二苯基)氨基甲酰氯(2b);2a和2b分别与3-氨丙基三乙氧基硅烷反应合成了两个新型的含非对称取代脲的功能性有机硅氧烷——1,1-二苯基-3-(3-三乙氧基硅基)丙基脲和1,1-(4,4'-二溴二苯基)-3-(3-三乙氧基硅基)丙基脲,其结构经1H NMR,13C NMR和IR表征。     

聚γ-(2-噻唑脲基)丙基倍半硅氧烷配合物的合成及磁性能

以2-氨基噻唑和异氰酸酯丙基三乙氧基硅烷为原料,合成了γ-(2-噻唑脲基)丙基三乙氧基硅烷(TUPTES),并采用溶胶-凝胶工艺制备了其过渡金属配合物(PTUPTES-Cu,PTUPTES-Ni).用红外光谱、核磁共振谱、扫描电镜和能谱等分析手段进行了表征.磁性测试结果表明,两种配合物在低温下都是较好的软铁磁体,其居里-外斯温度分别为119和75 K.     

具有双亲特性的水相哑铃型SiO2纳米粒子的制备

以纳米SiO2水溶胶为原料,3?氨丙基三乙氧基硅烷(APTES)和3?氯丙基三乙氧基硅烷(CPTES)为改性剂,在水基环境下分别对SiO2纳米粒子进行改性,得到了具有亲水特性的APTES改性SiO2粒子和具有亲油特性的CPTES改性SiO2粒子水溶胶。2种粒子按不同比例混合,利用接枝在SiO2粒子表面氨基和氯丙基的取代反应,使得2种具有亲水/亲油特性的改性SiO2纳米粒子偶联,制备了粒径为40~50 nm的哑铃型SiO2纳米粒子。并通过透射电镜(TEM)、傅里叶变换红外光谱(FT?IR)、X射线光电子能谱(XPS)以及动态光散射(DLS)等方法对其进行了系统表征。结果表明,2种粒子成功偶联形成了具有哑铃型结构的水相SiO2纳米粒子,该粒子两面具有不同的亲水性,粒径近似等于APTES改性SiO2粒子和CPTES改性SiO2粒子的粒径之和。     

聚γ-(β-氰乙硫基)两基硅氧烷铑配合物的合成与催化硅氢化性能

γ-巯丙基三乙氧基硅烷与丙烯腈加成，得到γ－（β-氰乙硫基）丙基三乙氧基硅烷，后者依次与气相法二氧化硅、三氯化铑作用，合成了聚γ-（β-氰乙硫基）丙基硅氧烷铑配合物，研究了其催化烯烃与三乙氧基硅烷硅氢加成反应的特性。     

直接法制备三乙氧基硅烷催化剂的研究进展

综述了直接法合成三乙氧基硅烷的研究进展,着重对直接法的反应机理和催化剂组分的筛选进行了分析讨论.同时介绍了以三乙氧基硅烷为原料,合成烯丙基三乙氧基硅烷、γ-(2,3-环氧丙氧)丙基三乙氧基硅烷、苯乙基三乙氧基硅烷、五乙氧基二硅烷等衍生物的工艺,提出了催化剂制备过程中存在的问题及研究方向.     

新型三嗪类氮-硅成炭剂的合成及其热稳定性

以三聚氯氰(1)和γ-氨丙基三乙氧基硅烷(2)为原料,经亲核取代反应合成了一种新型三嗪类氮-硅成炭剂——2-氯-4,6-二(3-三乙氧基硅烷基-1-氨丙基)-1,3,5-三嗪(3),其结构和热性能经1H NMR,IR和TGA表征。考察了溶剂、缚酸剂、原料比和反应温度对3产率的影响。合成3的最佳反应条件为:以丙酮为溶剂,Na2CO3为缚酸剂,1 10 mmol,n(2)∶n(1)=2.4,于50℃反应6 h,产率98.1%。3的初始分解温度为292℃,700℃时成炭率34.5%。     

高分散性SiO2/PMMA复合材料的制备与表征——接枝与交联

以硅烷偶联剂3-(甲基丙烯酰氧)丙基三甲氧基硅烷(MPS)改性SiO2/甲基丙烯酸甲酯(MMA)分散液为原料,通过原位本体聚合制得一系列具有不同SiO2含量和PMMA接枝率的高分散性SiO2/PMMA复合材料,索氏抽提分析复合材料的接枝和交联情况.发现抽提后体系中主要存在3部分物质:抽提液中含游离SiO2的PMMA溶液...     

新型磷-氮有机金属阻燃剂的合成及其热稳定性

以γ-氨丙基三乙氧基硅烷(1)和二苯基氯化膦(2)为原料,经取代反应制得N-(二苯基膦基)-1,1-二苯基-N-［3-(三乙氧基甲硅烷)丙基］膦氮配体(3); 3与六水合氯化镍(4)反应合成了一种新型的磷-氮有机金属阻燃剂(5),其结构经¹H NMR, ³¹P NMR和FT-IR表征。研究了物料比［r=n(2) : n(1)］、溶剂、反应时间和反应温度对3收率的影响。结果表明：在最佳反应条件［二氯甲烷为溶剂,1 19 mmol, r=2.3,于25 ℃反应14 h］下,3收率89.5%。 TGA测试结果表明：5的初始分解温度为252 ℃, 700 ℃残炭为31.9%。     

硅烷偶联剂对SSBR/SiO_2混炼胶体系动态流变行为的影响

研究了高填充白炭黑(SiO2)补强溶液聚合丁苯橡胶(SSBR)混炼胶体系的动态流变特性,分别考察了在2个混炼温度(120℃、160℃)下添加3种不同偶联剂(TESPT、TESPD、NXT)对其体系中SiO2粒子表面改性的效果.结果表明,在较低混炼温度下添加偶联剂,不利于SiO2粒子表面改性.在较高混炼温度下,偶联剂TESPT、PESPD、NXT均对SiO2粒子表面有改性效果,但同时引起混炼胶不同程度的焦烧,其中以TESPT最明显.随SiO2粒子表面改性程度的提高,出现“Payne效应”的临界应变(γc)值以及低频率(ω)区域lgG′-lgω曲线的斜率值均增大,反映出偶联剂对SiO2与SSBR相互作用的促进以及SiO2粒子分散的改善.     

橡胶-填料相互作用对丁苯橡胶/白炭黑复合材料性能的影响

本文研究了硅烷偶联剂原位改性白炭黑对溶聚丁苯橡胶(SSBR)性能的影响,结果表明,通过哈克转矩流变仪对含有偶联剂的SSBR/白炭黑混炼胶进行原位热处理后可明显减弱混炼胶的Payne效应,改善白炭黑在橡胶基体中的分散.原位热处理方法能够明显提高硫化胶的300%定伸应力,降低动态压缩温升,同时可使硫化胶在0℃附近具有较高的损耗因子(tanδ),60℃附近具有较低的tanδ.对不同聚合方式得到的丁苯橡胶,即溶聚丁苯橡胶与乳聚丁苯橡胶(ESBR)/白炭黑复合材料的力学性能及动态力学性能进行了研究,结果表明,白炭黑在SSBR2305中分散效果优于在ESBR1502中;采用偶联剂原位改性白炭黑可以使SSBR2305硫化胶获得与ESBR1502硫化胶相当的物理机械性能,更理想的动态力学性能,从而得到力学性能、抗湿滑性、滚动阻力及耐磨性更加均衡的理想轮胎材料.通过对具有不同偶联效率的SSBR/白炭黑体系的微观结构与性能研究发现,随偶联效率的增加,其结合橡胶含量增加,Payne效应减弱;高偶联效率的S-SBR具有较低的动态压缩温升及较好的耐磨性.     

表面改性SiO2对SSBR/BR绿色轮胎胎面胶结构与性能的影响

采用4种含不同官能基团修饰剂改性的二氧化硅SiO₂增强溶聚丁苯橡胶(SSBR)/顺丁橡胶(BR)共混体系, 制备了SSBR/BR/SiO₂橡胶纳米复合材料, 研究了其结构与性能. 结果表明, 在混炼胶体系中, 与未改性SiO₂填充的SSBR/BR相比, 改性SiO₂填充的SSBR/BR门尼黏度及结合橡胶含量显著增大, 表明填料-橡胶相互作用显著提高; 硫化焦烧时间缩短60%, 硫化速度增大了35%~40%. 在硫化胶体系中改性SiO₂填充的SSBR/BR具有更大的交联密度, 填料分散性明显改善, 同时也表现出更为优异的物理机械性能, 100%和300%定伸模量提高47%以上, 旋转滚筒式磨耗机法(DIN)磨耗降低5%~12%, 生热降低了约7%~13%, 热空气老化性能提升4%~22%, 代表滚动阻力的tanδ在60 ℃降低8%~13%. 此外, 与SSBR/BR/1165MP硫化胶相比, 用90 mmol/kg氨基改性SiO₂填充的SSBR/BR硫化胶的抗湿滑性能提高6.9%, 表现出最优的综合性能. 填料的良好分散及填料与聚合物的相互作用增强对于提高SSBR/BR/SiO₂胎面胶综合力学性能具有重要意义.     

Structure and properties of star‐shaped solution‐polymerized styrene‐butadiene rubber and its co‐coagulated rubber filled with silica/carbon black‐I: morphological structure and mechanical properties

The morphological structure and mechanical properties of the star‐shaped solution‐polymerized styrene‐butadiene rubber (SSBR) and organically modified nanosilica powder/star‐shaped SSBR co‐coagulated rubber (N‐SSBR) both filled with silica/carbon black (CB) were studied. The results showed that, compared with SSBR, silica powder could be mixed into N‐SSBR much more rapidly, and N‐SSBR/SiO₂ nanocomposite had better filler‐dispersion and processability. N‐SSBR/SiO₂/CB vulcanizates displayed higher glass‐transition temperature and lower peak value of internal friction loss than SSBR/SiO₂/CB vulcanizates. In the N‐SSBR/SiO₂/CB vulcanizates, filler was dispersed in nano‐scale resulting in good mechanical properties. Composites filled with silica/CB doped filler exhibited more excellent mechanical properties than those filled with a single filler because of the better filler‐dispersion and stronger interfacial interaction with macromolecular chains. N‐SSBR/SiO₂/CB vulcanizates exhibited preferable performance in abrasion resistance and higher bound rubber content as the blending ratio of silica to CB was 20:30. Copyright © 2008 John Wiley & Sons, Ltd.     

Comparison of reinforcing efficiency between Si-69 and Si-264 in a conventional vulcanization system

Silica has long been recognized as a reinforcing filler, especially for light colored products. The degree of reinforcement is noticeably increased when silica is used in combination with silane coupling agent. Therefore, various types of silane coupling agents are now commercially available. In the present study, two types of silane coupling agents, e.g., bis-(3-triethoxysilylpropyl) tetrasulfane (Si-69) and 3-thiocyanatopropyl triethoxy silane (Si-264) were selected for comparison of their reinforcing efficiency in a conventional vulcanization (CV) system. The results reveal that the addition of silane coupling agent not only improves compound processability, but also enhances the mechanical properties of the rubber vulcanizates. Compared with Si-69, Si-264 gives rubber compounds with better processability due to its greater ability to promote filler dis-agglomeration during mixing. In addition, Si-264 also imparts a greater degree of reinforcement. This might be attributed to the combined effects of better rubber–filler interaction, better filler dispersion and higher state of cure which are obtained when Si-69 is replaced with Si-264. The dynamic properties of the rubber vulcanizates are also improved with the presence of silane coupling agent. In this aspect, Si-69 performs better than Si-264 as it provides rubber vulcanizates with lower heat build-up.     

Insights into the Payne Effect of Carbon Black Filled Styrene-butadiene Rubber Compounds

As a widely used reinforcing filler of rubber, carbon black(CB) often enhances the nonlinear Payne effect and its mechanism still remains controversial. We adopt simultaneous measurement of rheological and electrical behaviors for styrene-butadiene rubber(SBR)/CB compounds and CB gel(CBG) during large deformation/recovery to investigate the contribution of conductive CB network evolution to the Payne effect of the compounds. In the highly filled compounds, the frequency dependence of their strain softening behavior is much more remarkable than that of their CB network breakdown during loading, while during unloading the unrecoverable filler network hardly affects the complete recovery of modulus, both revealing that their Payne effect should be dominated by the disentanglement of SBR matrix. Furthermore,the bound rubber adjacent to CB particles can accelerate the reconstruction of continuous CB network and improve the reversibility of Payne effect. This may provide new insights into the effect of filler network, bound rubber, and free rubber on the Payne effect of CB filled SBR compounds.     

微波处理和溶胶凝胶法共同改性废胶粉及其与天然橡胶复合材料性能的研究

采用微波处理打断废胶粉(WRP)的三维网状结构用来提高WRP在有机溶剂中的溶胀性,然后采用溶胶凝胶法,将微波改性后的WRP浸入正硅酸乙酯中,通过水解反应和缩合反应,在WRP表面原位生成SiO2网络,从而制得改性废胶粉(MWRP).将制得MWRP与天然橡胶(NR)共混,制备了NR/MWRP复合材料,研究了NR/MWRP复合材料的性能.通过热重分析仪、差示扫描量热仪和力学分析表明微波处理最佳时间是20 s.由于微波处理提高了NR与WRP的相容性,原位生成的SiO2粒子起到了补强作用,所以所制备的NR/MWRP复合材料拥有较好的力学性能;随着Si69的加入,抑制了SiO2粒子聚集,提高了SiO2粒子的分散性,从而进一步提高复合材料的力学性能并降低复合材料的Payne效应;在进行频率扫描时,硫化胶的储存模量随频率的增大而增大;硫化胶的温度扫描结果表明,随着温度的升高,复合材料中SiO2粒子聚集程度加剧并且复合材料出现老化的现象.为了提高复合材料的耐老化性能,N,N-间苯撑双马来酰亚胺(BMI)作为一种防老剂加入复合材料中,BMI利用Diels-Aider反应补偿橡胶在老化过程中所损失的交联键并提高NR与WRP的界面相容性,从而提高复合材料的耐老化性能.     

EFFECT OF INCORPORATING STARCH/SILICA COMPOUND FILLERS INTO UNCURED SSBR ON ITS DYNAMIC RHEOLOGICAL PROPERTIES

The dynamic rheological properties of a composite composed of solution-polymerized styrene butadiene rubber (SSBR) filled with starch/silica (SiO_2) compound fillers were studied by means of temperature,frequency and strain sweeps, respectively,and the influence of the starch content in the compound fillers (SCCF) on the rheological behaviors was discussed.It is found from frequency sweeps that a maximum of loss tangent (tanδ) appears at 20 rad/s,which is independent of SCCF.G' of the composites decrease...     

Silica dispersion and properties of silica filled ESBR/BR/NR ternary blend composites by applying wet masterbatch technology

Silica is used as a reinforcing filler in the rubber product such as a tire. When silica contents increased in the composite, deterioration of the processability and silica dispersion in silica-rubber composites cannot be overcome only by adding a silane coupling agent. Therefore, silica wet-masterbatch (WMB) technology is considered for manufacturing highly silica filled composites. Herein, we investigated silica dispersion, cure behavior, mechanical properties, abrasion characteristics, and viscoelastic properties of 3 types of WMB blend composites. Up to 82% improvement in silica dispersion was determined by the Payne effect and confirmed by atomic-force microscopy. The tensile strength and elongation at break increased and tan δ at 60 °C decreased by improving silica dispersion. The silica WMB is suitable for manufacturing highly silica filled composites.     

反式异戊橡胶合金改性溶聚丁苯橡胶/顺丁橡胶轿车胎面胶

研究了反式异戊橡胶合金(TPIR)的结晶性能、加工性能和力学性能及在轿车胎面胶溶聚丁苯橡胶/顺丁橡胶(SSBR/BR)中的应用.研究结果表明,与无定形SSBR和BR相比,TPIR生胶具有常温可结晶性,因此TPIR具有较高的格林强度.毛细管挤出行为研究结果表明,TPIR具有优异的挤出性能,挤出物外观光滑,挤出涨大比小.与SSBR/BR混炼胶相比,用TPIR改性后的SSBR/BR/TPIR混炼胶的格林强度与100%定伸应力随TPIR含量的增加而提高.经150℃硫化反应后制备的SSBR/BR/TPIR硫化胶物理机械性能优异:不仅耐湿滑性能、耐磨耗性能及压缩强度较对比胶提高,其伸张疲劳性能较对比胶提高4倍以上.透射电子显微镜(TEM)及填料分散仪表征结果表明,与SSBR/BR硫化胶相比,SSBR/BR/TPIR硫化胶的填料聚集体平均尺寸降低2μm,填料分散性显著改善.表明TPIR是一种应用于高性能轿车胎面胶的理想胶料.