不同增塑体系对丁腈橡胶老化前后及胶管扣压过程性能的影响

本文主要研究了不同增塑体系对丁腈橡胶老化前后物理机械性能的影响,以热油老化后的丁腈橡胶的应力-应变曲线作为材料参数,考察不同增塑体系对丁腈胶管扣压过程中性能变化的影响;硫化特性实验结果表明:使用DOP或DOA作为增塑剂时,硫化胶转矩差值较大,使用液体丁腈或聚硫橡胶作为增塑剂时,转矩差值相对较低,其中使用聚硫橡胶作为增塑剂时,焦烧时间较短;物理机械性能实验结果表明:使用液体丁腈或聚硫橡胶作为增塑剂时,丁腈橡胶硫化胶耐热空气老化性能保持率相对较高,耐热油老化后质量体积变化率相对较低;仿真计算结果表明:使用DOP或DOA作为增塑剂时,静刚度、应变能密度及节点处Mises应力较大,使用液体丁腈或聚硫橡胶作为增塑剂时,静刚度、应变能密度及节点处Mises应力相对较小。     

Adsorption characteristics of hexadecyl ammonium with different numbers of carbon chains in montmorillonite and the structure of the prepared composites

Journal of Porous Materials - The dynamics and thermodynamics of adsorption of hexadecyl ammonium with different numbers of carbon chains in montmorillonite (Mt) with different layer charge density...     

肟交换法制备乙醛肟工艺的研究

肟交换法是一种制备乙醛肟的新兴工艺,但反应过程存在乙醛肟易被空气氧化等问题,且反应液中存在多组共沸物,分离提纯得到高纯度的乙醛肟较为困难。以丁酮肟为原料,通过向反应器内充入0.2 MPa的氮气,有效避免了乙醛肟氧化与原料乙醛、丁酮肟的挥发,乙醛肟反应选择性达96.12%。开发了产物的提纯工艺,通过Aspen Plus模拟,初步确定减压精馏分离反应液的基本流程,考察了压力、塔板数、回流比、进料位置等操作参数对分离过程的影响。在此基础上,依据模拟确定的操作参数进行实验,确定最优分离提纯工艺,得到纯度为95.33%的乙醛肟产品,收率可达94.31%。本研究可为肟交换法制备乙醛肟的工业化提供一定的指导。     

淹没深度对三自由度波能浮子获能的影响

为明确浮子淹没深度对三自由度浮子装置获能的影响,提出漂浮式与淹没式两种浮子模型,计算并比较在不同淹没深度和波浪条件下浮子的获能特性。浮子模型具有纵荡、垂荡与纵摇3个运动自由度。浮子选用直立圆柱体浮子。淹没深度分别设置为其高度的0.5、1.0、1.5与2.0倍,质量相同。漂浮式浮子模型作为对照,基于线性势流理论与边界元方法,建立浮子水动力学模型,计算浮子水动力学参数及运动响应,并采用线性能量转换(power take-off, PTO)系统阻尼,计算并对比浮子在最优PTO阻尼下的平均输出功率,分析淹没深度对浮子获能的影响。研究结果表明,增大淹没深度可以减小浮子的波浪激励力和平均输出功率。对于三自由度浮子,漂浮浮子在低频波浪下获能特性较好,而具有较小淹没深度的浮子在高频波浪下性能更优。     

基于曲波变换和快速非局部均值的地震数据随机噪声压制

在常规的地震勘探中,由于受到激发、接收环境或仪器等因素影响,地震数据中会不可避免地混杂随机噪声,导致有效信号被淹没,从而无法被清晰识别,因此随机噪声的压制至关重要。本次研究提出一种改进曲波变换阈值去噪结合快速非局部均值去除地震随机噪声的方法:首先将循环平移和块状复数域阈值方法引入到曲波变换阈值去噪中,改进传统的曲波阈值去噪方法,得到最佳去噪结果;然后将去除的噪声利用快速非局部均值方法进行滤波,得到有效信号;最后将上述两步得到的数据相加得到最终的去噪结果。将该方法与曲波变换阈值方法、小波阈值方法及快速非局部均值算法的去噪结果进行比较,模型试验和实际地震数据去噪效果表明,该方法去噪结果的信噪比更高,信号保真度更高。因此本文方法压制随机噪声的效果更佳。     

Similar simulation study on the deformation and failure of surrounding rock of a large section chamber group under dynamic loading

Large and super-large section chamber groups in coal mines are frequently affected by dynamic loads resulting from production activities such as roadway driving and blasting. The stability of the surrounding rock is poor, and it is difficult to control. In this paper, a similar simulation test was used to study the deformation and evolution laws of the surrounding rock of a triangle-shaped chamber group under different dynamic loads. The results showed that under dynamic loading, the vertical stress of the surrounding rock of the chamber group increased in an oscillatory form. The maximum stress concentration coefficient reached 4.09. The damage degree of the roof was greater than that of the two sides. The deformation of the roof was approximately 1.2 times that of the two sides. For the chamber closer to the power source, the stress oscillation amplitude of the surrounding rock was larger, and the failure was more serious. The force of the anchorage structure showed a phased increasing characteristic; additionally, the force of the anchorage structure on the adjacent side of the chambers was greater than that on the other side. This study reveals the deformation and failure evolution laws of the surrounding rock of large section chamber groups under dynamic loading.     

表面改性碳纳米管的制备与性能研究

分别采用丙烯酸法和偶联剂法对碳纳米管(CNTs)进行表面改性,并研究不同方法改性CNTs对丁腈橡胶(NBR)性能的影响。结果表明:与偶联剂法改性CNTs相比,丙烯酸法改性CNTs对NBR的补强作用更好;经工艺处理丙烯酸法改性CNTs与橡胶基体的结合能力及在橡胶基体内的分散性更佳,补强效果最好,有效提高了NBR胶料的拉伸强度、撕裂强度、导热系数和耐磨性能。采用高速搅拌处理并结合丙烯酸法进行CNTs改性的方法可行且改性效果良好。     

Modified g-C3N4 derived from ionic liquid and urea for promoting visible-light photodegradation of organic pollutants

In this work, modified g-C₃N₄ was fabricated successfully by calcination of ionic liquid (IL) and urea. The addition of IL changed the polymerization mode of urea, induced the self-assembly of urea molecules, modified the morphological structure of the tightly packed g-C₃N₄, and extended the electron conjugation system. When using 1-butyl-3-methylimidazolium chloride ([Bmim]Cl) as a modifier, the heteroatom Cl could be inserted into the g-C₃N₄ to optimize the electronic structure. The results of characterizations indicate that the unique structure of modified g-C₃N₄ has an expanded electron delocalization range, introduces an interlayer charge transmission channel, promotes the charge transmission, reduces the band gap, enhances the absorption of visible light, and inhibits electron-hole recombination. Modified g-C₃N₄ showed excellent photocatalytic performance for the degradation of rhodamine B and tetracycline. Furthermore, the effect of different anions in 1-butyl-3-methylimidazolium salts ([Bmim]Cl, [Bmim]Br, [Bmim][BF₄], and [Bmim][PF₆]) on the structure and function of g-C₃N₄ are discussed.     

丁腈橡胶的发展现状与应用研究进展

综述了国内丁腈橡胶(NBR)的生产能力、产量与市场现状,分析了其国内市场的走向,从国内NBR生产工艺改进、新产品开发和特性化改性及国外丁腈橡胶信息传输应用和氢化丁腈橡胶聚合材料等几个方面介绍了国内外NBR生产技术的最新进展,并提出了我国NBR市场及技术的发展建议。