Preparation and Properties of Rare Earth Modified Carbon Black/Natural Rubber Composites

The oxides Eu, Ho, Er and Dy were used to prepare the hydroxides of rare earth modified carbon black. Then natural rubber latex （NRL） was added into the reactor. The system reacted at 85 ℃ with stirring for 1 h to prepare powdered HAF-Ln（OH）3/NR composites. The effects of the kind and content of Ln on the particle size distribution of P [ NR/HAF-Ln （OH）3 ] and mechanical properties of its vulcanizate were studied respectively. It is found that rare earth can help to get the powder of the composite, the product particle with a diameter less than 0.9mm will be get when the composites containing the compound of Ho, Er and Dy with dosage of 1.0, 1.0, O. 5 percent, respectively. The adding of Ln can improve the tensile strength and tear strength of the vulcanizate effectively, what＇s more, Er and Dy can decrease the permanent set of vulcanizate significantly. The SEM studies shows that P[ NR/HAF-Dy （OH）3 ] vulcanizate shows superior mechanical properties that depend primarily on the absence of free carbon black, the fine dispersion of carbon black in the rubber matrix and better polymer-filler interaction.

Fatigue Resistance of Filled NR with PMMA-Wrapped and Rare Earth-Doped Alumina-Siloxane Gel

Poly (methyl methacrylate) (PMMA) was used to wrap alumina-siloxane sol which was produced by water glass, aluminum nitrate and α-methacrylic acid, and as a result, alumina-siloxane gel wrapped by PMMA was obtained. Meanwhile, rare earth ions were employed to dope in the course of reaction, and the formed rare earth doped PMMA microcapsule powder was filled into natural rubber (NR). It is found through the analysis of mechanical properties that Young′s modulus universally improves and a remarkable resistance to fatigue is displayed. Retention rate of tensile strength is twice that of the controlled sample after ten thousand times of extension fatigue.

对氨基水杨酸镧对天然橡胶硫化特性的影响

以氯化镧和对氨基水杨酸钠为原料,采用沉淀法合成了新型环保促进剂对氨基水杨酸镧(PAS-La)。通过元素分析、热分析和红外光谱分析等方法对产物进行了表征并确定其分子式为La(C_(7)H_(6)NO_(3))_(3)·H_(2)O。利用无转子硫化仪、平衡溶胀法和万能试验机考察了PAS-La对天然橡胶硫化特性、交联密度和力学性能的影响,并对硫化动力学进行了分析。结果表明,随着PAS-La添加量的增加,天然橡胶的正硫化时间存在最大值,焦烧时间先减小后增大;硫化胶的交联密度增大,力学性能明显增强。当PAS-La的添加量为1.2份(质量)时,其对天然橡胶的硫化促进作用达到最佳。动力学计算发现,随着PAS-La添加量的增加,交联前驱体的反应活性增强,活化能先减小再增大。

稀土顺丁橡胶在电动汽车轮胎中的应用

电动汽车的快速发展对汽车轮胎提出更高的技术要求,轮胎中橡胶原料的选择对提升轮胎性能具有至关重要的作用。研究了稀土顺丁橡胶在电动汽车轮胎中的应用。实验结果表明,中国石化燕山石化公司生产的稀土顺丁橡胶Nd40制备的胎面胶的基本物理机械性能优异,滚动阻力低于国外稀土顺丁橡胶A1和国产镍系顺丁橡胶BR9000。使用Nd40制备的胎侧胶强度高、生热低、屈挠龟裂性能优异,有利于延长轮胎寿命。使用Nd40制备的205/55R1691V型电动汽车轮胎滚阻性能达到A级,制备的235/45ZR1898W型电动汽车轮胎湿路面抓着性能达到B级、滚阻性能为C级,满足国内电动车厂商的要求。

不同催化剂下稀土顺丁橡胶结构对性能的影响

为探究不同催化剂体系下稀土顺丁橡胶结构对性能的影响,在仅改变主催化剂,其余副催化剂、防老剂、降黏剂均保持不变,对生胶性能、硫化胶性能进行了数据对比,并分析顺式含量、对各催化剂体系下稀土顺丁橡胶性能的影响,以及三种主催化剂体系稀土顺丁橡胶结构对生胶性能和硫化胶性能的影响程度。结果表明在使用Ⅱ催化剂体系时应充分关注结构对生胶性能的影响,在使用Ⅲ催化剂体系时应充分关注结构对硫化胶性能的影响,Ⅰ催化剂体系橡胶加工性能比Ⅱ、Ⅲ催化剂体系差。

Influence of Blending Temperature on Fluorescence Properties of Silicone Rubber Matrix Eu(TTA)_2(phen)(MA) Composites

A series of fluorescent composites were prepared by blending silicone rubber with Eu(TTA )2(phen)(MA). The influence of mechanical blending temperature on fluorescent intensity of composites and dispersion of rare earth complexes in the SiR matrix were investigated. As for the cured rubber, it is found that its fluorescent intensity is relatively low compared with that of uncured rubber. Low temperature is beneficial to dispersion of Eu(TTA )2(phen)(MA) homogeneously. When the amount of rare earth complexes is low, the fluorescent intensity of composites prepared by mechanical blending method above melting point of Eu(TTA )2(phen)(MA) is much higher than that of composites prepared below melting point.

Fluorescence Properties of Eu^(3+)/Gd^(3+)/Citric Acid Mixed Complexes Doping in Silicon Rubber Matrix

Series of doped rare earth compiexes-EuxGd(1-x) (CA)3·nH2O (CA = citric acid) were synthesized. Some characterizations were taken for these complexes. The experimental results shows that the doped rare earth complexes have the best fluorescence property when the ratio of Eu and Gd is from 0.7 to 0.3. Silicon rubber-based composites were prepared by mechanical blending the EuxGd(1-x) (CA)3·nH2O and silicon rubber. Then, the fluorescent property of the composites was studied. It is found that the fluorescence intensity of the composites increase linearly with the contents of the rare earth complexes increasing.

Study on Cerium Oxide Modified Natural Rubber

The action of CeO2powders in natural rubber was studied. The effects of particle size, content and surface modification of CeO2powders on the properties of natural rubber was discussed. The results showed that the scorch and curing time of rubber decreased, the physic mechanical properties and aging resistance of natural rubber vulcanizates enhanced after filled with CeO2powders. Especially tear strength and abrasion resistance increased much, and was raised 25% and 20% respectively. The surface of modified CeO2powders had hydrophobic organize layer which could increase interface cohesion with the rubber and dispersity in rubber resulting in exerting reinforcement effect. The modified CeO2powders improve the physic mechanical properties of rubber much compared with the unmodified CeO2powders.

顺式结构对窄分布稀土顺丁橡胶性能的影响

对自制的三个窄分布稀土顺丁橡胶试样进行了结构剖析,研究了其顺式-1,4-结构含量与性能的关系。结果表明,三个试样均为窄分布的顺丁橡胶(分子量分布指数在2.55~2.74),生胶门尼黏度在45±5,其中顺式-1,4-结构含量较高者略大;均具有较好的焦烧安全性且硫化速率相当,与炭黑结合得较好;均具有较好的物理机械性能、耐热老化性能、耐磨性和回弹性。随着顺式-1,4-结构含量的增加,试样的压缩生热和滚动阻力降低,耐动态疲劳性能略有下降。

电动汽车轮胎用高性能橡胶材料的研究进展

对电动汽车轮胎的技术要求、国内外电动汽车轮胎及电动汽车轮胎用高性能橡胶材料的研究进展进行了总结,并对电动汽车轮胎产业的发展进行了展望。

可替代箱式铅手套的复合橡胶屏蔽材料研究

特定核设施的乏燃料处理过程中,所涉及的主要为低能辐射射线,但如不加以屏蔽还是会对工作人员的健康造成一定的影响。针对这种特殊低能环境,在手套材料中掺入稀土元素Tm和Sm的化合物来达成一定的屏蔽效果和较好的物理性能。结果显示,某些稀土元素对γ射线具有良好的屏蔽效果,且对比传统屏蔽材料铅化学毒性低。并通过实验制出可适用于制作手套箱手套的材料,通过辐射屏蔽实验得出该材料对59.5 keV的能量屏蔽率可达33%~41%,且其他物理性能良好。根据这个结果判断这种材料可以在某些场合对含铅手套做一定的替代且能给相关屏蔽防护用具的设计提供参考。

稀土在橡胶生产中的应用

综述了稀土在橡胶中的应用研究进展。由于稀土的独特性质,填充到橡胶后,无论在工艺还是性能方面,稀土都起到了一定作用。它能作为硫化促进剂、交联剂;它具有抗热氧化、提高热稳定性、抗疲劳等作用。它可用作橡胶的功能性填充剂,使橡胶具有射线屏蔽性能、磁性能、阻燃性能。因此,稀土在橡胶中的应用前景十分广阔。

中国稀土顺丁橡胶的工业化开发

回顾了稀土顺丁橡胶在中国的工业化开发历程,总结了稀土顺丁橡胶生产工艺的特点,展望了其发展前景。

稀土CeO_2对橡胶材料耐磨性的影响

采用干法混炼工艺在橡胶中加入不同质量分数的稀土氧化铈，研究了稀土氧化铈对橡胶耐磨性能的影响．结果表明：当稀土氧化铈的质量分数为5％-10％时，由于稀土氧化铈与橡胶混合较均匀，界面结合良好，可以使橡胶的耐磨性提高近1倍左右；当稀土氧化铈添加量超过10％后，其耐磨性能反而下降．

合成顺丁橡胶用稀土催化剂的开发进展

介绍了稀土催化剂聚合丁二烯的反应特征和组成特点,分析了催化剂的制备方法和催化剂活性中心的生成过程,并介绍了窄相对分子质量分布聚丁二烯的合成方法,指出了稀土催化剂的研究方向。

稀土PMMA包裹硅铝氧烷凝胶填充天然橡胶的抗疲劳作用

用聚甲基丙烯酸甲酯 (PMMA)对水玻璃、硝酸铝和α 甲基丙烯酸形成的硅铝氧烷溶胶进行包裹 ,得到PMMA包裹的硅铝氧烷凝胶 ,同时在反应过程中用稀土离子进行掺杂 ,得到的稀土掺杂PMMA微囊粉末填充到天然橡胶之中 ,经力学性能分析发现杨氏模量普遍提高 ,抗疲劳效果显著 ,一万次伸张疲劳后 ,拉伸强度的保持率比参照样品提高两倍以上。

相对分子质量及其分布对稀土顺丁橡胶性能的影响

研究了5种不同相对分子质量及其分布的稀土顺丁橡胶（NdBR）的性能。结果表明，NdBR生胶和混炼胶的门尼黏度随相对分子质量的增加而升高；窄相对分子质量分布（多分散指数小于3．00）NdBR的生胶门尼黏度略高于与其相对分子质量相近而分布较宽的NdBR。相对分子质量对NdBR的正硫化时闯影响不大，但最小转矩和最大转矩有随相对分子质量的增加而增大之趋势。生胶相对分子质量较低的NdBR，其硫化胶的300％定伸应力和拉伸强度较低，生热值较高，耐磨性能下降，滚动阻力升高。生胶门尼黏度为39～49的NdBR，其硫化胶的综合性能良好。填充适量操作油可以提高硫化胶的物理机械性能。窄相对分子质量分布NdBR硫化胶的300％定伸应力、拉伸强度、扯断伸长率、回弹性、永久变形、耐磨性以及滚动阻力等都优于相对分子质量相近而分布较宽的NdBR。

新癸酸钕系顺丁橡胶的性能

研究了以新癸酸钕作主催化剂聚合得到的顺丁橡胶（ Ln－ BR）的性能。结果表明：特性粘数为 2.70 dL/g、门尼粘度为 37的 Ln－ BR不仅混炼行为良好，滚动阻力较低，而且硫化胶的拉伸性能、耐磨性能以及热老化性能等均优于特性粘数大于 5.00 dL/g、门尼粘度高于 50的 Ln－ BR,但是其抗疲劳性和生热性逊于后者；特性粘数大于 5.00 dL/g的 Ln－ BR，混炼时应添加适量芳烃操作油。

稀土异戊橡胶研究进展

异戊橡胶是一种综合性能很好的通用合成橡胶,其结构与性能基本上与天然橡胶相同。稀土催化剂合成异戊橡胶,与国际上传统使用钛系催化剂相比,具有催化剂用量较低,聚合物相对分子质量大,聚合物凝胶含量低等优点,因此成为研究的热点。本文主要介绍了近年来稀土异戊橡胶在国内外的研究进展。

稀土化合物改性炭黑/天然橡胶复合材料的制备与性能

用铕(Eu)、钬(Ho)、饵(Er)和镝(Dy)4种稀土(Ln)氧化物(Ln2O3)制备了稀土氢氧化物改性炭黑,然后加入天然胶乳(NRL),采用凝聚共沉法制备了粉末状的稀土改性炭黑/天然橡胶复合材料P[NR/HAF-Ln(OH)3]。研究了稀土种类和用量对P[NR/HAF-Ln(OH)3]的粒径分布及其硫化胶物理机械性能的影响。结果表明,稀土可以提高NRL与乳化炭黑构成的粉末体系的成粉率,当Ho,Er的用量为1.0%或Dy的用量为0.5%时均可使粒径小于0.9 mm的产物达100%;稀土的存在可显著提高P[NR/HAF-Ln(OH)3]硫化胶的拉伸强度和撕裂强度,而Er和Dy还可明显降低硫化胶的永久变形;SEM分析表明,HAF-Dy(OH)3以团粒形态存在于NR基体中,团粒表面覆盖一层NR膜,团粒与NR构成的界面模糊,说明HAF-Dy(OH)3与NR基体结合紧密,这是P[NR/HAF-Dy(OH)3]具有较好物理机械性能的主要原因。