绿色和黄色银胶的光化学制备及其共振散射光谱研究

研究了不同光源、光照时间、反应物浓度等对绿色银胶形成的影响,分别制备了绿色银胶和黄色银胶.透射电镜显示,它们的平均粒径分别为100nm和40nm.绿色银胶在393.9nm和713.3nm处有两个吸收峰;黄色银胶在419.3nm处有一较宽的吸收峰.它们的最强共振散射峰位于470nm处;绿色银胶在340nm和80nm还有两个小共振峰.     

稳态荧光探针研究支链烷基苯磺酸钠的聚集行为

以芘为荧光探针、二苯酮为猝灭剂,用稳态荧光探针法测定了合成的4种带干扰基(磺酸基邻位的短链烷基)的支链烷基苯磺酸钠的临界胶团浓度、合适猝灭剂浓度下的胶团聚集数以及在不同浓度氯化钠水溶液中的胶团聚集数.结果表明,支链烷基苯磺酸钠分子中长链烷基碳数增加,临界胶团浓度大幅度降低,胶团聚集数减小;分子中短链烷基碳数增加,临界胶团浓度降低幅度小,胶团聚集数增大;胶团聚集数随氯化钠浓度增大而增大.     

褐藻糖胶的分离、化学修饰和清除羟自由基作用研究

用酸法提取褐藻糖胶,经乙醇初步分级得褐藻糖胶HD1和褐藻淀粉HD2;褐藻糖胶HD1经DEAE(二乙氨乙基)-纤维素柱层析,控制洗脱速度1.0mL/min,先经二次水洗脱,然后用0～1.5mol/LNaCl梯度洗脱;浓缩、透析,得褐藻糖胶HDⅠ和HDⅡ;用氯磺酸法合成了硫酸酯化褐藻糖胶HDSⅡ;红外光谱法确定了硫酸酯键的特征吸收。通过Fenton反应产生羟自由基模型,对比研究了褐藻多糖化学修饰前后体外抗氧自由基性质;褐藻糖胶HDⅡ经硫酸化修饰后、通过清除.OH自由基表明,褐藻糖胶组分HDⅡ、HDSⅡ均可作为自由基清除剂。     

杜仲胶研究新进展

本文从和天然橡胶对比开始,对杜仲胶作了简要介绍;根据杜仲胶链结构的三大特征:双键,柔性及反式链结构,及其在橡胶一塑料材料谱中的特殊位置,对杜仲胶结构与性能的关系进行了讨论,作者指出:由于杜仲胶硫化过程三阶段特征的揭示,而通过与橡胶,塑料进行多途径共混,又可获得广性能的材料,从而使杜仲胶研究进入材料工程学新阶段。文中用图示描述了杜仲胶硫化弹性网络的非无规线团模型,并指出:其弹性来自分布于整个网络中各交联点的备向同性构象记忆。     

对硝基苯酚丙酸酯水解反应的CTAB胶团催化作用研究

 在Na2CO3-NaHCO3缓冲溶液中,测定了对硝基苯酚丙酸酯(NPP)的十六烷基三甲基溴化铵(CTAB)胶团催化反应的表观活化能和活化参数; 考察了无机盐(NaCl, NaBr, Na2SO4)对该催化反应的影响. 结果表明: 无机盐的加入,主要产生压缩CTAB胶团双电层、降低OH-离子的胶团表面浓度以及减小NPP的加溶程度的双重减速效应. 反离子浓度(或活度)愈高及水合反离子半径愈小,则减速效应愈明显.     

PLA-mPEG嵌段共聚物胶团的制备及其表面张力

PLA-mPEG嵌段共聚物胶团的制备及其表面张力;丙交酯;甲氧基聚乙二醇;嵌段共聚物;纳米胶团;表面张力     

浓度对表面活性剂胶团形状影响的分子动力学模拟

表面活性剂的很多行为因多种机制的耦合作用至今还未被理解, 而计算机模拟能方便地使用简化的模型对各种机制分别探索, 日渐受到重视. 文中采用重点描述亲水亲油性质的简化的原子模型对油水混合物中不同浓度十二烷基苯磺酸钠(SDBS)胶团的形状、结构和大小进行了分子动力学(MD)模拟研究. 在临界胶团浓度(cmc)以上, 随浓度的增加, 它们依次自发形成从球形胶团、棒状胶团到层状结构的各种聚集体, 并以胶团转动惯量特征值之比(g₁/g₃, g₂/g₃)定性表明了这种转变过程. 模拟结果表明胶团聚集数与表面活性剂浓度成幂函数关系.     

黄原胶分子形貌的电镜研究

本文用扫描电镜研究了温度、超声波处理及浓度对黄原胶分子形貌的影响,并用透射电镜研究了黄原胶单分子的形貌及分子量。认为黄原胶分子在一般情况下具有较规则的二、三、四级结构,论述了其初、高级结构之间的关系,得出了黄原胶分子是由40余个亚基组成的右手双螺旋这一结论,计算出其分子量为6×10~6至25×10~6。     

低温β-甘露聚糖酶的酶学性质及破胶性能

页岩油气藏开发过程中返排液的破胶及低温油藏压裂液的破胶是目前页岩油气藏及致密油气藏开发过程中面临的一个难题。由于化学破胶剂使用时需要较高的温度,难以满足低温条件下彻底破胶的要求。为此,针对低温酶破胶剂,采用高通量筛选方法,从油田压裂返排水和魔芋地的混合样品中筛选出高效低温β-甘露聚糖酶产生菌,并对所产低温β-甘露聚糖酶的酶学性质及破胶性能进行了研究。结果表明,在筛选到的40个产酶菌株中,菌株O5鉴定为施氏假单胞菌,其产生β-甘露聚糖酶（ME-O5）的最适温度为50 ℃,在5~20 ℃时酶活力仍能保持约60%以上,低温活性突出,在中温区域的热稳定性良好;最适pH=7.0,具有一定的pH适应性和较宽的pH耐受范围。ME-O5在5和20 ℃下均能将瓜尔胶溶液的粘度降低至5 mPa·s以下,降粘率>99%,降粘效果显著。在10、20和50 ℃下,压裂液经ME-O5破胶处理3 h后,破胶液的表观粘度<5 mPa·s,表面张力<28 mN/m,界面张力<2 mN/m,残渣量<600 mg/L,均达到或优于我国石油天然气行业标准SY/T 6376-2008的要求,在油田压裂低温破胶方面具有良好的应用前景。     

光盘用2P胶应用研究进展

对光盘用２Ｐ胶的应用研究进展情况进行了评述，其中光盘制备用光聚合浮雕成型２Ｐ胶的基本组成为各类多官能团丙烯酸酯类单体；光盘保护涂层用２Ｐ胶主要组分为环氧丙烯酸酯类预聚体。     

Comparison of the mechanical properties at similar hardness level of natural rubber filled with various reinforcing-fillers

Commercially, the alteration of a rubber formulation is usually made in such a way as to keep the hardness of the rubber product constant. This is because a specific hardness of the rubber product sets the limit to its practical applications. Therefore, in this paper, natural rubber (NR) vulcanizates containing various fillers were prepared to have the same hardness level, and their mechanical properties were compared and related to the degree of filler dispersion. The results show that higher amounts of carbon black (CB) and silica are needed for CB- and silica-filled natural rubber vulcanizates to achieve the same hardness value as a NR vulcanizate containing 6 phr of montmorillonite clay. At equal loading of fillers, clay-filled vulcanizate exhibits higher modulus, hardness, tensile strength and compression set, but lower heat build-up resistance and crack growth resistance than those of the vulcanizates containing conventional fillers. For the vulcanizate having the same hardness value, CB-filled vulcanizate gives the better overall mechanical properties followed by the clay-filled and silica-filled vulcanizates, respectively. The explanation is given as the better dispersion of carbon black, as can be seen in the SEM micrograph.     

反式丁戊橡胶改性航空轮胎侧胶的结构与性能

采用反式-1,4-丁二烯-异戊二烯共聚橡胶（简称反式丁戊橡胶,TBIR）改性航空轮胎侧胶[天然橡胶（NR）/顺丁橡胶（BR）（质量比80/20）],研究了NR/BR/TBIR混炼胶的结晶行为、力学性能、硫化特性及硫化胶的物理机械性能、动态力学性能和填料分散性.结果表明,相比NR/BR并用胶,结晶性TBIR的并用赋予NR/BR/TBIR混炼胶较高的格林强度和杨氏模量.NR/BR/TBIR混炼胶工艺正硫化时间延长,交联密度提高.TBIR用量范围内,NR/BR/TBIR硫化胶300%定伸应力提高7%,耐屈挠疲劳性能提高35%~50%,滚动阻力降低.m（NR）/m（BR）/m（TBIR）为80/10/10硫化胶具有更好的综合力学性能及耐热氧老化性能.随着硫化时间的延长,NR/BR/TBIR（80/10/10）硫化胶较NR/BR（80/20）硫化胶100%定伸应力提高18%以上,NR/BR体系的耐屈挠疲劳性降低近60%,而NR/BR/TBIR（80/10/10）体系仍能保持原来的50%;反映滚动阻力的60℃损耗因子降低8%~14%,反映抗湿滑性的0℃损耗因子保持不变.填料分散度得到改善,填料聚集体尺寸降低.NR/BR/TBIR（80/10/10）硫化胶具有更好的耐长时间硫化的特性.     

Analysis of wax solubility of rubber vulcanizates using wax solution in toluene and molten wax

Wax is commonly used as an antidegradant for rubber materials by formation of an impervious barrier. Wax solubilities in natural rubber (NR), styrene–butadiene rubber (SBR), and butadiene rubber (BR) vulcanizates were measured using wax solution in toluene and molten wax. Wax solubilities using molten wax were much higher than those using wax solution in toluene. The wax solubility of NR vulcanizate was higher than those of SBR and BR. Parameters influencing wax solubility were the solvent swell, rubber fraction and filler type as well as the rubber type. Molecular weight distribution of the dissolved wax was different from that of the raw wax; the dissolved waxes with lower molecular weights were relatively higher than the raw ones. We believe that wax solubility and molecular weight distribution of the dissolved wax can be widely used for determining the wax type and content.     

高耐磨低生热NBR/TBIR复合材料的结构与性能

采用高反式-1,4-丁二烯-异戊二烯共聚橡胶(TBIR)对丁腈橡胶(NBR)进行改性, 制备了高耐磨、 低生热输送轮用白炭黑填充的NBR/TBIR橡胶纳米复合材料. 研究了NBR/TBIR橡胶纳米复合材料的交联密度、 物理力学性能及填料分散性, 探讨了材料的结构对性能的影响. 研究结果表明, 与纯NBR相比, NBR/TBIR橡胶纳米复合材料的硫化速率和交联密度随TBIR用量的增加而增大; 在保持NBR硫化胶基本力学性能、 耐老化性能和耐溶剂性能基本不变的前提下, TBIR的加入使NBR/TBIR硫化胶的耐磨性提高15%, 动态压缩生热降低5%, 动态压缩永久变形降低22%, 白炭黑分散水平提高; 与丁腈橡胶/顺丁橡胶[NBR/BR(80/20), 质量份数比]硫化胶相比, NBR/TBIR(80/20, 质量份数比)硫化胶具有更低的动态压缩生热和动态压缩永久变形及更好的填料分散性.     

Low temperature degradation and characterization of natural rubber

Low temperature degradation of natural rubber was performed with potassium persulfate (K₂S₂O₈, KPS) in the latex stage at 30 °C to accomplish a good processability of the rubber. Various grades of natural rubbers were used as a source rubber. Gel content, molecular weight and chemical structure of the rubbers were characterized by swelling method, size exclusion chromatography and ¹H NMR spectroscopy, respectively. The well characterized natural rubber was subjected to oxidative degradation with KPS at 30 °C. Mooney viscosity decreased when the latex was degraded with 1.0 phr of KPS and it was dependent upon the amount of KPS. Molecular weight and gel content of the degraded natural rubber were about one-half as low as those of the source rubber. Chemical structure of the rubber was analyzed through Fourier transform infrared and ¹H NMR spectroscopic methods. The degraded natural rubber was found to contain carbonyl and formyl groups as an evidence of the oxidative degradation. Tensile strength of a vulcanizate prepared from the degraded natural rubber was the same as that prepared from the source rubber, even though the gel content and the molecular weight of the degraded rubber were distinguished from those of the source rubber.     

Sol–gel derived nano zinc oxide for the reduction of zinc oxide level in natural rubber compounds

Zinc oxide (ZnO) nanoparticles are synthesized by polymeric sol–gel method and characterized by X-ray diffraction, field-emission scanning electron microscopy. The cure characteristics, mechanical properties and thermal behaviour of natural rubber (NR) systems containing nano ZnO are investigated and compared to those of NR with micro-sized (conventional) ZnO. The NR vulcanizate with 0.5 phr (parts per hundred parts of rubber) sol–gel derived nano ZnO shows improvement in the curing and mechanical properties in comparison to the NR vulcanizate with 5 phr conventional ZnO. Thermogravimetric analysis reveals that nano ZnO impose better thermal stability than conventional ZnO in the NR vulcanizates. Thus, nano ZnO not only acts as a curing activator but also nano filler to improve the resulting properties of the NR vulcanizates. More essentially nano ZnO leads to the reduction of ZnO level in the NR compounds. Therefore, sol–gel derived nano ZnO diminishes the pollution of aquatic environment due to higher amount of conventional ZnO in rubber compounds.     

Effect of maleic anhydride and liquid natural rubber as compatibilizers on the mechanical properties and impact resistance of the NR‐NBR blend

The degree of compatibilization between natural rubber (NR) and acrylonitrile‐butadiene rubber (NBR) was investigated by two different methods. NBR was chemically modified with maleic anhydride in a screw twin mixer with and without reaction initiator, benzoyl peroxide. Also, the effects of molecular weight of liquid natural rubber (LNR) as a compatibilizer were studied. The degree of compatibilization between NBR and NR is determined indirectly through measurements of mechanical properties and impact resistance. The maleic anhydride and benzoyl peroxide concentrations influence the mechanical properties and impact resistance of the blends. Also, the mechanical properties of the blends showed that the molecular weight of LNR played an important role in determing their performance. Copyright © 2004 John Wiley & Sons, Ltd.     

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.     

分子量分布对双烯类聚合物粘弹性能的影响—Ⅰ.分子量分布对顺-1,-4聚丁二烯粘弹性能的影响

本文采用沉淀分级和溶液混合的方法制备分子量相近但分子量分布不同的顺-1,4-聚丁二烯样品,通过凝胶渗透色谱(GPC)和应力松弛的方法,研究分子量分布宽度对生胶粘弹性能的影响,并考察低分子量级份对缠结网络密度的作用和高分子量级份对生胶粘弹性能的影响。结果表明,聚合物本体的稳流切变粘度对分子量分布最为敏感。随分子量分布的变宽,低分子量级份增多,缠结网络密度变小,当高分子量级份增加时,生胶的弹性记忆效应加强。     

Percolation simulation of the network degradation during ultrasonic devulcanization

The percolation model of network degradation during rubber devulcanization is presented. The model is based on a random crosslink scission and molecular chain breakup. The obtained results indicate that the primary model parameter characterizing the network degradation is the ratio of the probabilities of backbone breakup to crosslink scission. The predicted dependences of the gel fraction of devulcanized rubber on crosslink density are in excellent agreement with experimental data for styrene-butadiene rubber and ground rubber tire. The estimated critical exponents indicate that the process of devulcanization for the vulcanizate without filler appears to belong to the universality class of standard 3D bond percolation while devulcanization for the vulcanizate with filler appears to belong to its own new universality class. © 1996 John Wiley & Sons, Inc.