%0 Journal Article
%T 含硫偶联剂对木粉/橡胶-塑料三元复合材料力学性能及耐热性能的影响
Effect of sulfur-containing coupling agent on mechanical properties and heat resistance of wood powder/rubber-plastic ternary composites
%A 王伟东
%A 李奇
%A 赵劲松
%A 美丽
%J 复合材料学报
%D 2019
%R 10.13801/j.cnki.fhclxb.20181213.001
%X 以再生高密度聚乙烯(HDPE)、沙柳木粉和废轮胎胶粉为原材料,含硫偶联剂Si69为界面相容剂,采用模压法制备木粉/橡胶-塑料三元复合材料。考察Si69对木粉/橡胶-塑料三元复合材料力学性能及耐热性能的影响,并采用FTIR和SEM分析Si69改性前后废轮胎胶粉的表面特性及木粉/橡胶-塑料三元复合材料的微观断面形貌。结果表明:Si69与废轮胎胶粉发生了化学反应。当Si69添加量为5wt%时,木粉/橡胶-塑料三元复合材料的界面结合较佳,力学性能及耐热性能较优,其中弯曲强度、弯曲模量、拉伸强度较未添加Si69的木粉/橡胶-塑料三元复合材料分别提高了13.85%、7.24%和6.63%;维卡软化温度和热变形温度较未添加Si69的木粉/橡胶-塑料三元复合材料分别提高了6.95℃和8.70℃,Si69可在一定程度上提高木粉/橡胶-塑料三元材料的耐热性能。Si69添加量为7wt%时,木粉/橡胶-塑料三元复合材料的缺口冲击强度可达到3.99 k·Jm-2。 The regenerated high-density polyethylene(HDPE), salix wood powder and waste tire rubber powder were used as the raw materials, and sulfur-containing coupling agent Si69 as the interface compatibilizer, wood powder/rubber-plastic ternary composites were prepared by molding method. The influences of Si69 on the mechanical properties and heat resistance of wood powder/rubber-plastic ternary composites were investigated, the waste tire rubber powder surface characteristics before and after Si69 modification and the microstructure of wood powder/rubber-plastic ternary composites were analyzed by FTIR and SEM. The results show that Si69 has a chemical reaction with waste tire rubber powder. When the contents of Si69 is 5wt%, the interfacial compatibility of wood powder/rubber-plastic ternary composites is better, mechanical properties and heat resistance are good, the flexural strength, flexural modulus and tensile strength are increased by 13.85%, 7.24%, 6.63%, respectively, which compared with no adding Si69; The vicat softening temperature and heat deformation temperature of wood powder/rubber-plastic composites are increased by 6.95℃ and 8.70℃, respectively. Heat resistance of wood powder/rubber-plastic composites is improved by Si69 to some extent. When the contents of Si69 is 7wt%, the notched impact strength of wood powder/rubber-plastic ternary composites can reach 3.99 k·Jm-2. 国家自然科学基金(31660177
%K Si69
%K 界面相容剂
%K 复合材料
%K 力学性能
%K 耐热性能
Si69
%K interface compatibilizer
%K composites
%K mechanical properties
%K heat resistance
%U http://fhclxb.buaa.edu.cn/CN/abstract/abstract14579.shtml