Understanding the Reinforcement and Dissipation of Natural Rubber Compounds Filled with Hybrid Filler Composed of Carbon Black and Silica

The performance of reinforced rubber compounds depends on the filler composition while the reinforcement and dissipation mechanisms still remain unclear. Herein linear and nonlinear dynamic rheological responses of carbon black/silica hybrid filler filling nature rubber compounds are investigated. The rheological contributions of dynamically retarded bulk phase and filler network are revealed to be crucial at high and low frequencies, respectively, and the bulk phase is shown to be of vital importance for the occurrence of nonlinear Payne effect at mediate frequencies. A framework for simultaneously solving reinforcement and dissipation varying with filler composition and content is suggested, providing a new perspective in understanding the filling effect for manufacturing high-performance rubber materials.

超声波脱硫再生胶对NR/SSBR/BR胎面胶性能的影响

将具有较高脱硫程度的超声波脱硫轮胎胶粉再生胶(DGTR)加入到天然橡胶/溶聚丁苯橡胶/高顺式顺丁橡胶(NR/SSBR/BR)胎面胶料中,研究了DGTR用量对胎面橡胶复合材料流变性能、硫化特性和力学性能的影响。流变性能测试结果表明,随着DGTR用量的增加,在较低频率下复合材料的黏度和储能模量增加,损耗因子降低,说明DGTR能改善填料在橡胶基体中的分散,降低胎面胶滚动阻力。硫化特性和力学性能结果表明,DGTR的加入能缩短胎面胶料的硫化时间,并提高其撕裂强度和300%定伸应力;当其用量不超过20份时,对胎面胶料拉伸强度影响较小。

防老剂4020添加工艺对天然橡胶复合材料性能的影响

将胺类防老剂4020分散体采用乳液复合法添加至天然橡胶胶乳中制备耐老化橡胶复合材料,考察了其交联密度、物理机械性能、耐热氧老化性能等,并与机械共混法进行了对比。结果表明,乳液复合法能有效避免橡胶初加工过程中的老化行为,并且有利于促进防老剂在橡胶中的分散,提高了橡胶中防老剂的有效含量,因此采用该方法制备的天然橡胶具有比采用机械共混法更优异的物理机械性能和耐热氧老化性能;同时,较高的交联密度也赋予了复合材料更好的耐磨性和压缩疲劳性能。

新型橡杜复合改性沥青的制备参数研究

为改善橡胶沥青的高温性能和储存稳定性能,基于具有橡塑二重性的可再生资源——杜仲胶对橡胶沥青的改性增强机理,以沥青常规性能试验和微观观测为手段,研究了杜仲胶与橡胶粉反应时间和温度、橡杜复合改性剂掺量对橡杜复合改性沥青(REMA)性能的影响,提出了最佳制备工艺。结果表明:杜仲胶能够显著改善橡胶沥青的性能,REMA具有很好的施工和易性和储存稳定性;改性剂掺量对REMA的性能有显著的影响,杜仲胶和橡胶粉反应时间对REMA影响较大,杜仲胶和橡胶粉反应温度对REMA影响较小。结合宏观性能试验结果和微观检测分析,制备REMA的最佳工艺参数为:杜仲胶和橡胶粉反应时间为1.0~1.5 h,杜仲胶和橡胶粉反应温度为170~180℃,橡杜复合改性剂掺量为基质沥青质量的20%~25%。

金属有机框架材料在橡胶密封条除味性能中的应用

将金属有机框架材料(MOFs)作为三元乙丙橡胶(EPDM)密封条的除味剂,研究了MOFs对EPDM的硫化行为和力学性能的影响,考察了MOFs对EPDM释放出挥发性有机化合物气味的抑制效果。结果显示,MOFs的加入可促进EPDM的硫化且其力学性能基本不变;MOFs对有机胺和二硫化碳等气味分子具有较好的吸附效果,EPDM的气味等级从4.5降至2.0。

Development of Magnetic Compound Fluid Rubber Sensor for Practical Usage on γ-Irradiation and Energy Harvesting for Broad-Band Electromagnetic Waves

We have performed sequential studies on new types of soft rubber for their application as artificial skin in robots and haptic sensors. Based on a proposed electrolytic polymerization method and novel adhesion technique for rubber and a metal that utilizes a metal complex hydrate, we have developed an MCF rubber sensor. This sensor uses a magnetic compound fluid (MCF), natural rubber (NR-latex) or chloroprene rubber latex (CR-latex), and requires the application of a magnetic field. The potential application of the developed sensor in various engineering scenarios and our daily lives is significant. In this regard, we investigated the effects of γ-irradiation, infrared radiation, microwaves, and a thermal source on the MCF rubber sensor. We established that the MCF rubber is effective enough to be used for power generation of broadband electro-magnetic waves from γ-rays to microwaves, including the range of the solar spectrum, which is the typical characteristic obtained in the present investigation. The remarkable attribute is that the MCF rubber sensor dose is not degraded by γ-irradiation. We also demonstrated the effectiveness of the MCF rubber sensor in energy harvesting.

双驱同步橡胶齿轮泵式滤胶机滤网孔径对胎侧胶性能的影响

采用一种双驱同步橡胶齿轮泵式滤胶机对轮胎胎侧胶进行过滤,研究滤网孔径对胎侧胶性能的影响。结果表明:经过过滤的胶料的性能优于未过滤的胶料,且采用孔径0.070 mm(200目)滤网过滤的胶料的硫化特性、物理性能和耐屈挠性能最优,Payne效应最弱,动态力学性能较好;与未经过过滤的硫化胶相比,采用0.070 mm孔径滤网过滤的硫化胶的拉伸强度提高33.0%,撕裂强度提高33.3%,平均龟裂等级降低3级。

橡胶有机废气特性及其治理技术研究

橡胶有机废气中含有大量VOCs、恶臭物质、水汽以及含油颗粒,会给大气环境质量及人类健康安全带来严重的负面影响。橡胶有机废气具有浓度不一、成分复杂、有明显异味等特点,这使得对其治理的难度较大。目前,橡胶所产生的有机废气的单一治理方法包括臭氧氧化法、吸附法、生物法、热氧化法,但单一治理方法往往不能完全满足经济高效的处理需求。因此,本文根据橡胶废气的特点提出了治理效果更佳的“除尘-臭氧氧化-碱液吸收”“吸附浓缩-热氧化-冷却脱硫”“低温等离子体/光催化-多相催化氧化”组合治理工艺。

双官能化溶聚丁苯橡胶在轮胎胎面胶中的应用

使用国产双端官能化产品SSBR2060-N和日本Zeon公司单端官能化产品Nipol■NS616进行成品轮胎试制及性能评价。结果表明,使用SSBR2060-N制备的成品轮胎外边缘尺寸达到技术标准,抗湿滑性能和滚动阻力均达到了欧洲议会和欧盟理事会联合颁布的轮胎标签法规EU2020/740规定的双B轮胎级别,强度性能、高速性能和耐久性能等均与使用Nipol■NS616制备的成品轮胎相当且均能够满足国家标准要求。

胶粉复合改性沥青的研制及工业化生产

以某公司加工的环烷基和中间基原油为原料,通过优化原油配比,采用常减压蒸馏工艺,通过控制减压蒸馏工艺条件,生产出符合技术标准要求且能够用于改性沥青的基质沥青原料。通过筛选与基质沥青配伍性好的胶粉、助剂添加比例及工艺条件优化,研制出符合技术规范要求的胶粉复合改性沥青并进行了工业试生产。对工业生产的产品检测及专业部门鉴定结果表明,胶粉复合改性沥青产品各项技术指标符合JT/T798-2019《路用废胎胶粉橡胶沥青》技术要求,成功实现了工业化生产和应用。

活-硫共混橡胶改性沥青混合料路用性能及机理研究

为了在橡胶改性沥青的基础上继续提高废旧橡胶的利用率,同时解决橡胶改性沥青黏度大、易离析的问题,将易溶于沥青基体的活化橡胶与硫化橡胶共同掺入基质沥青进行改性,制备高掺量活-硫共混橡胶(activated-vulcanized compound rubber,AVCR)改性沥青。通过改性沥青聚合物离析试验、沥青动态剪切试验和沥青低温弯曲蠕变试验,测试AVCR改性沥青的技术性能,通过高温车辙、三轴压缩、低温小梁弯曲和冻融劈裂试验,对比AVCR改性沥青混合料相对于硫化橡胶(vulcanized rubber,VR)改性沥青混合料和SBS改性沥青混合料在路用性能方面的优势,利用扫描电子显微镜(scanning electron microscope,SEM)观察并分析AVCR改性沥青的微观机理。结果表明:相比于VR改性沥青和SBS改性沥青,AVCR改性沥青的失效温度分别提高了15.1℃和20.5℃,蠕变劲度模量分别降低了76 MPa和89 MPa,高低温性能均有明显提升;AVCR改性沥青混合料相比其他2种改性沥青混合料,高温性能和抗水损坏性能优良,低温抗裂性能突出,其最大弯拉应变分别比SBS和VR改性沥青混合料高出29.4%和10.8%;AVCR改性沥青微观呈现“海岛结构”,其中活化橡胶、硫化橡胶和沥青均匀融合,整体性好,同时具有一定的抗变形能力。研究结果可为AVCR改性沥青混合料在路面工程中的应用提供参考。

液体二烯烃橡胶在NR/SBR胎面胶中的应用研究

采用4种液体二烯烃橡胶和环保芳烃油(TDAE)作为增塑剂,研究对比其在天然橡胶(NR)/丁苯橡胶(SBR)胎面胶中的应用。结果表明:含液体橡胶的混炼胶的加工流动性较含TDAE的混炼胶略变差,焦烧时间和正硫化时间略延长;与含TDAE的硫化胶相比,含液体橡胶的硫化胶的定伸应力、撕裂强度、回弹值增大,耐磨性能提高,耐屈挠疲劳裂纹引发性能和耐热空气老化性能降低;含液体异戊橡胶LIR-50的硫化胶的拉伸强度和回弹值最大,耐压缩疲劳性能和耐6级裂口屈挠疲劳性能最佳,滚动阻力最低;含液体顺丁橡胶LBR-305的硫化胶的耐磨性能最佳;含液体丁戊橡胶LBIR-390的硫化胶的综合物理性能介于含液体异戊橡胶LIR-50的硫化胶与含液体顺丁橡胶LBR-305的硫化胶之间;含液体丁苯橡胶LSBR-820的硫化胶的抗撕裂性能最佳,耐屈挠疲劳性能最差。

SBR复配回收橡胶树脂改性沥青性能研究

为改善基质沥青的路用性能,结合SBR与回收橡胶树脂两者材料特征,对沥青进行单一改性与两两复配。参考沥青评价指标,利用25℃针入度、软化点、锥入度、10℃延度、旋转黏度等试验,综合评价SBR复配回收橡胶树脂改性沥青性能,探究不同配方复配改性沥青性能差异及影响因素,比选出最佳复配方案。研究结果表明:增加SBR与回收橡胶树脂掺量均能一定程度上提高沥青的高温性能;不同来源SBR对沥青性能影响差异不大,而不同回收橡胶树脂对沥青性能影响有差异,主要原因是不同回收橡胶树脂组成配方对沥青性能产生较大影响所致;SBR对沥青的低温性能改善作用明显,少量SBR即可明显提升沥青延度;随SBR掺量的增加,SBR改性沥青软化点有小幅提升,黏度也随之增加;回收橡胶树脂对软化点提升效果相比SBR更明显,8%掺量最佳;3%SBR、8%回收橡胶树脂为本次复配最佳方案。

硅烷改性液体聚丁二烯橡胶在白炭黑填充胎面胶中的应用

研究硅烷改性液体聚丁二烯橡胶Polyvest EP ST-E 60(简称ST-E 60)在白炭黑填充胎面胶中的应用。结果表明:采用ST-E 60等量替代环烷油,胶料的门尼粘度减小,门尼焦烧时间延长,FL和Fmax减小,t 90缩短,Payne效应减弱,白炭黑的分散性改善;硫化胶的耐磨性能提高,回弹值增大,动态生热降低;在胎面胶配方体系中白炭黑用量越大,ST-E 60对胶料性能的改善效果越明显。

SBS/胶粉复合改性沥青在高速公路沥青路面中的应用研究

SBS与橡胶粉复合改性基质沥青,既可提高改性沥青的使用性能,又可降低SBS改性沥青的成本,经济且环保。依托某高速公路路面工程项目,开展SBS/胶粉复合改性沥青的生产工艺及制备、复合改性沥青路用性能、混合料配合比设计等研究。结果表明:通过确定各原材料的掺配比例并采用合理的生产工艺,所制备的复合改性沥青具有优异的高低温性能以及良好的稳定性,同时总结了复合改性在生产过程中的质量控制要点。通过试验路的铺筑,表明所设计的RAC-20中面层具有良好的密水性、抗车辙性能以及行车舒适性。

振动量级和胶料硬度对T形橡胶减振器振动特性的影响

对随机振动激励下橡胶减振器的减振机理进行研究,推导出橡胶减振系统的均方根(RMS)加速度响应计算公式,并研究了振动量级和胶料硬度对T形橡胶减振器(简称橡胶减振器)振动特性的影响。结果表明:橡胶减振器的传递率峰值随振动量级和胶料硬度的增大而减小;橡胶减振器的减振效率随振动量级的增大而增大,随胶料硬度的增大而减小;橡胶减振系统的RMS加速度响应理论值与试验值的误差绝对值较大,通过线性拟合并对理论值进行修正后,可以将误差控制在+5%以内。

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。

Preparation and Characterization of Natural Rubber/Silica Nanocomposites using Rule of Similarity in Latex

Rule of similarity and latex compounding techniques were combined for the first time to prepare natural rubber/nanosilica （NR/SiO2） nanocomposite with core-shell nanosilica-poly （methyl methacrylate） （SiO2-PMMA） particles and PMMA-modified natural rubber matrix （NR-PMMA）. The micro- structure of SiO2 and nanocomposites with different SiO2 contents was characterized by fourier transform infrared spectroscopy （FTIR）; the morphology of nanocomposites was investigated with scanning electron microscopy （SEM）; the tensile strength was characterized by tensile testing machine and the thermal stability of composites was studied by thermal gravimetric analysis. Results showed that PMMA chains have successfully grafted onto the surface of SiO2, and the core-shell SiO2-PMMA nanoparticles and NR-PMMA latex have been perfectly incorporated. SiO2-PMMA nanoparticles are evenly distributed over the NR matrix with an average size in the range of 60-100 nm at the low content （SiO2≤ 3 wt%）, while aggregations are apparently observed when 5 wt% SiO2 is loaded. In addition, NP/SiO2 composities possess a considerable improvement in ageing resistance compared with the pure NR. The tensile strength of composite increases from 6.99 to 12.72 MPa, reaching the highest value at a 0.5 wt% SiO2 loading, and then the figure decreases gradually because of the aggregation of SiO2 nanoparticles. It is anticipated that the reported process is to provide a simple and economic way for preparing NR composites.

<i>γ</i>-Ray Irradiation Effect on MCF Rubber Solar Cells with both Photovoltaics and Sensing Involving Semiconductors Fabricated under Magnetic and Electric Fields

For cases in which a robot with installed solar cells and a sensor operates in a nuclear reactor building or in space for extravehicular activity, we require elastic and extensible solar cells. More than two different types of sensing are also required, minimally with photovoltaics and built-in electricity. Magnetic compound fluid (MCF) rubber solar cells are made of rubber, so they are elastic and extensible as well as sensitive. To achieve flexibility and an effective photovoltaic effect, MCF rubber solar cells must include both soluble and insoluble rubbers, Fe3O4, TiO2, Na2WO4∙2H2O, etc. On the basis of this constitution, we propose a consummate fabrication process for MCF rubber solar cells. The characteristics of these cells result from the semiconductor-like role of the molecules of TiO2, Fe3O4, Ni, Na2WO4∙2H2O, polydimethylsiloxane (PDMS), natural rubber (NR), oleic acid, polyvinyl alcohol (PVA), water and magnetic cluster involved in the MCF rubber. Their tendencies can be deduced by synthesizing knowledge about the enhancement of the reverse-bias saturation current IS and the diode ideality factor N, with conventional knowledge about the semiconductor affected by γ-irradiation and the attenuation of the photon energy of γ-rays.

高强力再生橡胶在工程机械斜交轮胎胎面基部胶中的应用

研究高强力再生橡胶在工程机械斜交轮胎胎面基部胶中的应用。结果表明,添加10份高强力再生橡胶,同时相应地调整补强体系,胶料的抗撕裂性能明显提高,动态压缩生热降低,其他性能变化不大,满足胎面基部胶的性能要求,且胶料成本降低。