摘要
天然橡胶(NR)和氢化丁腈橡胶(HNBR)因不饱和度和极性的差异,存在硫化速度不匹配、填料分散等问题,难以实现两胶的并用。本文通过先制备不同硫黄/促进剂比例的NR和HNBR母炼胶,再将母炼胶并用制备NR/HNBR复合材料,解决了NR和HNBR共硫化的问题。研究了NR/HNBR的相态结构和填料在NR和HNBR两相的分散状态,结合相态结构和填料分散分析了NR/HNBR并用比对复合材料硫化特性、动静态力学性能、耐磨性和压缩温升的影响。结果表明:并用HNBR的复合材料混炼胶的门尼黏度增大,焦烧时间和正硫化时间缩短;随着HNBR含量增加,HNBR相的尺寸增大,硫化胶的硬度及100%和300%定伸应力增加,拉伸强度、撕裂强度、断裂伸长率和拉断永久变形减小,耐磨性和抗湿滑性提高,压缩疲劳温升增大。
For blends of natural rubber(NR)and hydrogenated nitrile butadiene rubber(HNBR),problems such as mismatching vulcanization speed and dispersion of fillers due to the difference in unsaturation and polarity make it difficult to prepare NR/HNBR composites.In the present study,the problem of NR and HNBR co-vulcanization was resolved by first preparing NR and HNBR master batches with different sulfur/accelerator ratios,and then combining the master batches.Then,the phase structures of NR/HNBR and filler dispersion in NR and HNBR were examined.Based on the results of phase structures and filler dispersion,the effects of NR/HNBR blending ratios on the vulcanization characteristics,dynamic and static mechanical properties,heat build-up and wear resistance of the composites were analyzed.The results show that the Mooney viscosity of compounds increases,with the scorch time and cure time of the compounds with HNBR shortened.With the increase of HNBR content,the size of HNBR phase increases;the hardness and stresses at 100%or 300%strains of vulcanizates grow;the tensile strength,tear strength,elongation at break and tensile set decrease;the wear resistance and wet skid resistance improves,and the temperature rise of compression fatigue increases.
作者
郝振源
桑言祥
吴友平
HAO Zhenyuan;SANG Yanxiang;WU Youping(Beijing Engineering Research Center of Advanced Elastomers,Beijing University of Chemical Technology,Beijing 100029,China;School of Materials Science and Engineering,Beijing University of Chemical Technology,Beijing 100029,China)
出处
《材料科学与工艺》
CAS
CSCD
北大核心
2024年第2期20-28,共9页
Materials Science and Technology
关键词
天然橡胶
氢化丁腈橡胶
共硫化
填料分散
物理性能
动态性能
耐磨性
natural rubber
hydrogenated nitrile rubber
co-vulcanization
fller dispersion
physical property
dynamic performance
abrasion resistance
