Effect of Strain on the Electrical Resistance of Carbon Nanotube/Silicone Rubber Composites

Carbon nanotube （CNT） filled silicone rubber （SR） composites were synthesized by in situ polymerization.The effect of strain on the electrical resistance of the CNT/SR composites and the structure evolution of CNT networks during tensile deformation were investigated.The results showed that the CNT/SR composites had high sensitivity of resistance-strain response.In a wide strain range （0-125%）,the change of resistivity could reach 107,which was closely associated with the evolution process of the conductive CNT-network structure.The volume expansion of the composites in the tensile process led to a gradual decrease in the volume fraction of CNTs with the strain increase.When CNT loading was lower than the percolation threshold,CNT network was in disconnected state with a rapid increase in electrical resistance of the composites.Furthermore,the CNT loading had remarkable effect on the sensitivity of resistance-strain response in the composites.

INFLUENCES OF MODIFIERS ON SURFACE PROPERTIES OF WHITE CARBON BLACK AND MECHANICAL PROPERTIES OF SILICONE RUBBER

Various of modifiers were used to modify the surface activity of white carbon black. The oil absorption, viscosity, hydrophobic rate and burning loss of white carbon black and the mechanical propertiess of silicone rubber were measured. The influences of the modifiers on the properties of white carbon black and the mechanical properties of silicone rubber were discussed.

Mechanical Properties of Silicon Carbon Black Filled Natural Rubber Elastomer

A pyrolyzed ash containing about 50% carbon,named silicon carbon black(SiCB),was prepared by the anoxic pyrolysis of rice husk.Fourier transform infrared spectroscopy(FTIR),thermogravimetric analysis(TGA), Brunauer-Enunett-Teller(BET),transmission electron microscopy(TEM)and universal material testing machine were used to analyze the stress-strain relationship,Mullins effect and static viscoelastic properties of SiCB-filled vulcanized natural rubber(NR),and SiCB was compared with a commercially available semi-reinforcing fumace(SRF) carbon black.The results show that the vulcanized natural rubber filled with SiCB had similar reinforcing properties to those of that filled with traditional SRF,but obvious differences between them exist in stress-strain properties and stress softening resistance.We tried to discuss the related phenomena with the aid of the modified two-layer theory. And it is successfully predicted and verified that SiCB has good compression resistance and obvious stress relaxation advantages in compression stress relaxation.

Aging Characteristics and Influencing Factors of the Sheds of Composite Insulators in Karst Regions of China

In recent years,more and more high-voltage overhead transmission lines were built passing through the karst regions in southwestern China.This type of special landform seems to have an adverse effect on the aging of the sheds of the line suspension composite insulators,which may lead to unexpected flashover and line tripping.In order to find out the particularity of the aging characteristics of insulators operating in the karst regions,samples in operation were selected from both the karst regions and the flatlands.Hydrophobicity,amount of surface contamination,and contaminant composition of the sheds were studied,then a comparison of performance between the two was made,and the possible influencing factors that cause such differences were discussed.The results show that the overall aging of the sheds of the composite insulators operating at the karst regions is more aggravated,which is caused by the combined influence of factors including the special topography,climate,and pollution in the area.The strong wind crossing the col will bring about the mutual scraping on the edges and stress concentration at the root of the sheds,leaving scratches and root cracks;the infiltration from these rupture of acid liquid,if any,will accelerate the aging and corroding of the internal silicone rubber material;moreover,the carbonates enriched on the surface of the sheds will gradually transform into more corrosive sulfates in an acidic environment,leading to further deterioration and chalking of the sheds of the insulators.The research work in this paper can provide guidance for the current operation and maintenance of composite insulators in the karst areas,as well as having important reference values for the layout design and insulation configuration of transmission lines to be built across karst landforms in the future.

混炼工艺对炭黑/天然橡胶复合材料性能的影响

选用干法密炼机混炼、湿法开炼机混炼、湿法密炼机混炼和湿法连续混炼四种混炼工艺,通过测定硫化特性、物理机械性能、动态力学性能和炭黑分散度等探究不同混炼工艺对炭黑/天然橡胶复合材料性能的影响。结果表明,湿法混炼胶的综合性能优于干法混炼胶,湿法连续混炼工艺制备的混炼胶的性能最佳,同时提高了混炼各个工序之间的连续性和自动化程度。

正交试验法优化铂催化液体硅橡胶导电发泡材料

液体硅橡胶(LSR)除了具有硅橡胶的优势,还具有良好的流动性,易于加工,绝缘性限制了其在电子领域的应用。目前已有许多导电固体硅橡胶的研究,但国内关于导电LSR的研究较少,且都有一些共性问题,比如导电填料过多、硬度太高、密度过大等。为了降低铂催化LSR的导电填料添加量,并降低其密度和硬度,采用乙炔炭黑(CB)作为导电填料并将材料进行发泡,制备LSR导电发泡材料。但是,铂催化LSR还有无法使用常规含氮有机发泡剂以避免铂中毒的问题,因此需要采用其他发泡方法。因而采用羟基硅油(Si-OH)和水作为化学及物理发泡剂,蒙脱土(MMT)作为补强剂,为了得到综合性能良好的硅橡胶导电发泡材料,利用正交试验法,并进行单因素方差分析,研究了Si-OH,CB,MMT和水对材料发泡和力学性能及电导率的影响。结果表明,正交试验法可快速得到CB/LSR导电发泡最优配比:当LSR质量分数为56.1%,Si-OH为28.1%,CB为7%,MMT的质量分数为5.3%,水的质量分数为3.5%时,制备的发泡材料电导率为3.36×10^(-6)S/m,液体硅橡胶比纯LSR提高了9个数量级,密度为0.67 g/cm^(3),相比纯LSR降低了43%,邵C硬度为36,比纯LSR降低了33%。

硅橡胶/多壁碳纳米管复合材料应变感知性能研究

通过开炼法制备出甲基乙烯基硅橡胶(VMQ)/多壁碳纳米管(MWCNT)复合材料,研究MWCNT含量对复合材料分散性能、导电性能及电阻-应变响应性能的影响。结果表明:适量的MWCNT能够均匀分散在VMQ中,形成三维隧穿导电网络,使复合材料具备较低的渗流阈值(2.51%,质量分数,下同),较大的传感范围(>200%)及高灵敏度(GF>2 546.16),在多次循环过程中具有稳定的电阻响应信号,特别是在4 000次循环中展现出优异的电阻信号稳定性,同时没有出现肩峰现象。通过隧道效应理论模型分析,解释了电阻-应变响应机理,明确复合材料具有对大变形隔震支座进行实时应变监测的潜力。

基体模量对用于柔性传感器的导电聚合物复合材料电阻黏弹性的影响

导电聚合物复合材料(CPC)被广泛用于柔性电阻式传感器的制备。然而由于聚合物基体的黏弹性,导致其电阻响应呈现松弛、滞后等黏弹性现象,这将会对制备的传感器精确表征造成不利影响,故在材料制备阶段减小电阻黏弹性对基于CPC的柔性电阻式传感器具有重要意义。选择了常用的零维炭黑(CB)及一维多壁碳纳米管(MWCNT)为导电填料,并通过在质量分数3%~7%间改变硅橡胶(SR)固化剂质量分数来调节基体模量,研究了基体模量及纳米填料维数对CPC电阻黏弹性的影响。研究结果显示,纳米填料质量分数为3%时,随着基体模量的增加,CB/SR的电阻松弛比从15%增加到34%,多壁碳纳米管/硅橡胶(MWCNT/SR)的电阻松弛比从40%增加到47%;动态循环加载下的应变灵敏度也随基体模量的增加而下降。相同固化剂质量分数即相同基体模量时,与MWCNT/SR相比,CB/SR的电阻松弛比、动态循环加载下的应变灵敏度下降程度和“肩峰”更小。因此,在制备过程中减小基体模量、使用零维导电纳米填料CB,均可减小CPC的电阻黏弹性。

气相白炭黑/炭黑并用填充加成型液体硅橡胶的性能研究

本文通过动态流变学测试,重点研究了气相白炭黑/炭黑并用对胶料物理机械性能、拉伸永久变形、体积电阻率和流变行为的影响。结果表明,在保持填料总用量不变的情况下,气相白炭黑/炭黑用量会显著影响胶料的物理机械性能;同时还会显著影响胶料的流变行为,表现出显著的“Payne效应”。随着应变的增加,胶料的储能模量呈数量级式的下降。当炭黑填充量为10 g时,形成稳定的导电通路。

加成型液体硅橡胶用白炭黑改性研究进展

气相法白炭黑作为一种性能优异的补强填料,在硅橡胶领域有着广泛的应用,但白炭黑在基体中的分散性不佳会影响其补强效果,一定程度上限制了其应用。介绍了白炭黑的补强机理及改性方法,并对未来白炭黑的研究方向进行了展望。

炭黑-石墨烯杂化材料增强天然橡胶复合材料的性能研究

利用炭黑颗粒掺杂石墨烯得到炭黑-石墨烯纳米杂化粒子,经乳液复合制备炭黑-石墨烯/天然橡胶母胶,然后通过密炼制得炭黑-石墨烯/天然橡胶纳米复合材料,研究掺杂体系内炭黑用量对炭黑-石墨烯/天然橡胶复合材料的微观形貌、力学性能、压缩生热性能和耐磨性能的影响。结果表明:炭黑颗粒吸附在石墨烯表面,有效抑制了石墨烯的堆叠,从而减少了大片径多层石墨烯的形成,且随着炭黑用量的增大,石墨烯的裸露区域逐渐减少;当掺杂体系中炭黑/石墨烯用量比为10/1时,石墨烯在橡胶中的分散状态得到明显提升,复合材料的宏观力学性能、压缩生热性能和耐磨性能均明显改善。

乙炔炭黑填充导电硅橡胶的研究

对乙炔炭黑填充硅橡胶的导电性能进行研究。实验结果表明:在甲基乙烯基硅橡胶中,随着乙炔炭黑用量增加,试样的体积电阻率呈降低趋势;白炭黑对硅橡胶导电性能有较大不良影响;经过热处理后,硅橡胶的导电性能有明显改善。

SiO_2纳米粉对炭黑/硅橡胶复合材料的压阻、阻温特性的影响

研究了添加导电炭黑和SiO2纳米粉的硅橡胶复合材料的导电机理、压阻及阻温效应.发现：添加15g导电炭黑的硅橡胶（硅橡胶为100g，下同）的压阻效应，随着纳米SiO2量的增加显著提高．在一定压力范围内，电阻随压力增加而呈线性增加,只添加15g导电炭黑的硅橡胶材料的电阻率随温度升高而略为降低，而加入纳米级气相法生产的SiO2的炭黑／硅橡胶复合材料的电阻随温度增加而增加且其导电机制为欧姆导电,其电导率受导电团聚体间的电导率控制.

填充炭黑对柔性触觉传感器用导电硅橡胶性能的影响

炭黑添加到绝缘的硅橡胶中,制备具有压阻特性的导电硅橡胶是触觉传感器常用的一种材料。通过实验研究3种填充炭黑制成的导电硅橡胶的渗流现象、相同体积分数时压阻特性。显示3种炭黑填充的导电硅橡胶具有不同的渗流阈值,同体积分数下的压阻特性也不相同。相同种类炭黑的添加量改变时,在渗流阈值附近导电硅橡胶的压阻特性最明显。利用扫描电镜(SEM)分析导电硅橡胶的断面形貌,表明导电硅橡胶性能与填料炭黑的分布有关,而炭黑的分布又与其结构相关:粒径越小、表观密度和比表面积越大的高结构炭黑分散性越好,导电硅橡胶的渗流阈值越小,相同体积分数下所获得压阻特性越显著。

炭黑填充导电硅橡胶的结构与性能

采用SEM、TGA等表征了炭黑填充导电硅橡胶的性能及结构,并研究其导电机理。结果表明,乙炔炭黑含量对导电硅橡胶的力学性能有明显影响。含量超过45 phr后,其体积电阻率变化不明显,炭黑在橡胶内部形成"球簇"和"簇链"结构,因而炭黑的增多,增加了"导电通路",降低橡胶的体积电阻率;导电硅橡胶的最佳耐热性填充量为50 phr,此时随温度的增加,其拉伸强度下降;在100℃下长期老化后的导电性能下降。

炭黑/纳米Al_2O_3填充柔性压敏导电硅橡胶体系的研究

基于柔性触觉传感器中用到的压敏导电硅橡胶,研究添加纳米Al2O3对导电硅橡胶电特性的影响。从理论上研究纳米Al2O3改性的微观和宏观机理,并通过实验对添加不同量纳米Al2O3的压敏导电硅橡胶导电性、室温下的导电稳定性、压阻特性进行比较分析。实验结果表明:在炭黑浓度恒定的压敏导电硅橡胶中适量添加纳米Al2O3,可有效提高复合材料的导电性,稳定性,增大复合材料的压力敏感范围。

炭黑/氢氧化镁协同阻燃硅橡胶的研究

研究炭黑/氢氧化镁、红磷/氢氧化镁和硼酸锌/氢氧化镁协同阻燃硅橡胶的效果。结果表明,与单独添加氢氧化镁阻燃硅橡胶相比,炭黑/氢氧化镁具有显著的协同阻燃效应,炭黑/氢氧化镁阻燃硅橡胶的氧指数增大;炭黑/氢氧化镁协同阻燃效果明显优于红磷/氢氧化镁和硼酸锌/氢氧化镁;添加炭黑有助于提高氢氧化镁阻燃硅橡胶的燃烧成炭率和质量保持率。

高结构导电炭黑填充硅橡胶复合材料的性能

研究了导电炭黑(HG -CB)的高结构对乙烯基甲基硅橡胶(VMQ -110)复合材料电性能和机械性能的影响。由TEM观察看出 ,随HG -CB用量增加 ,其在硫化胶中形成的导电网络逐渐完善 ,用量达19份 (质量份 ,下同 )时已形成完整的导电网络 ,导电机理可用电子隧道效应来解释。同时随HG -CB填充量增加 ,复合材料的拉伸强度、硬度增大 ,但对VMQ -110的硫化有影响 ,欠硫现象严重。HG -CB的用量一般控制在10～15份 ,所得硅橡胶复合材料具有较佳的电性能和机械性能。

炭黑/硅橡胶纳米复合材料的结构和压阻特性研究

炭黑/硅橡胶复合材料,具有良好的导电性和柔韧性,可用于机器人传感器领域。在炭黑/硅橡胶复合材料中分别添加纳米二氧化硅和纳米三氧化二铝,用扫描电镜考察纳米粒子对导电炭黑在橡胶基体中的分散作用。测量其导电特性、压阻特性,考察了纳米粒子对该复合材料导电特性和压阻特性的影响。结果显示,适量添加纳米粒子,对炭黑具有分散作用和解离作用,可以得到具有导电性好、压阻特性线性好的导电橡胶复合材料,且添加二氧化硅效果优于三氧化二铝。

硅橡胶热膨胀模塑成型法制备碳/环氧复合材料管研究

本文应用硅橡胶热膨胀模塑成型工艺成功地制备出符合尺寸精度要求的碳 /环氧复合材料管。探讨了影响该成型工艺的主要因素。但实测的力学性能中复合材料管的压缩强度较低 。