Abstract: In order to provide the high viscosity modified asphalt required for drainage asphalt pavement and control its preparation cost, high viscosity composite modified asphalt was prepared by adding rubber powder, SBS modifier and high viscosity modifier. According to the performance indices including penetration, ductility, softening point, penetration index and dynamic viscosity at 60 ℃, etc., the effect of various modifiers on the performance of composite modified asphalt was studied, and the appropriate dosage was determined. The thermal storage stability of high viscosity composite modified asphalt was studied by the softening point difference method. Dynamic shear rheological test (DSR) was used to study high-temperature rheological properties of high viscosity composite modified asphalt. The complex modulus index (GTS) method was used to test the temperature sensitivity of high viscosity composite modified asphalt. Fourier transform infrared spectroscopy (FTIR) and differential scanning calorimetry (DSC) were used to analyze the modification mechanism of high viscosity composite modified asphalt. The test results show that 5% SBS modifier, 13% rubber powder and 4% high viscosity modifier are suitable proportions, the prepared high viscosity modified asphalt has good high-temperature rutting resistance performance and temperature sensitivity performance, meanwhile meets storage stability requirements. There are physical blending and chemical reactions between rubber powder, SBS, high viscosity modifier and base asphalt.
周志刚, 陈功鸿, 张红波, 凌永毅. 橡胶粉/SBS与高黏剂复合改性沥青的制备及性能研究[J]. 材料导报, 2021, 35(6): 6093-6099.
ZHOU Zhigang, CHEN Gonghong, ZHANG Hongbo, LING Yongyi. Study on the Preparation and Properties of Modified Asphalt by Rubber Powder/SBS and High Viscosity Modifier Composite. Materials Reports, 2021, 35(6): 6093-6099.
1 Zhang Feng, Hu Changbin. Polymer Composites,2017,38(5),936. 2 Xiong Z J, Cheng J L, Deng C, et al. Journal of Dalian Jiaotong University,2017,38(5),94(in Chinese). 熊子佳,程金梁,邓成,等.大连交通大学学报,2017,38(5),94. 3 Xu S G, He W P. Highway,2016(3),166(in Chinese). 徐世国,何唯平.公路,2016(3),166. 4 Xu A H, Wang X W, Xiong R, et al. Bulletin of the Chinese Ceramic Society,2017,36(4),1326(in Chinese). 徐安花,王小雯,熊锐,等.硅酸盐通报,2017,36(4),1326. 5 Yan K Z, Hu Y, Wang Z G, et al. Journal of Building Materials,2017,20(1),145(in Chinese). 颜可珍,胡玥,王曾光,等.建筑材料学报,2017,20(1),145. 6 Hussein A A G, Cheng P F. Construction and Building Materials,2017,142101. 7 Ji Z Z, Liu J W, Xu K. New Building Materials,2018,45(4),124(in Chinese). 吉泽中,刘嘉伟,徐凯.新型建筑材料,2018,45(4),124. 8 Zhou Y M, Wei J G, Shi S, et al. Journal of Chang'an University(Natural Science Edition),2018,38(5),9(in Chinese). 周育名,魏建国,时松,等.长安大学学报(自然科学版),2018,38(5),9. 9 Fang Changqing, Wu Caixia, Yu Ruien, et al. Polymers for Advanced Technologies,2013,24(1),51. 10 Liu L, Liu Z H, Li S. Applied Mechanics and Materials,2013,361,1617. 11 Han M, Zeng X, Yaseen M, et al. Polymers,2019,11(4),2073. 12 Du Y B, Zou X L, Chai M M. Highway,2017,62(8),228(in Chinese). 杜宇兵,邹晓翎,柴明明.公路,2017,62(8),228. 13 Fu L X. Study on road performance and acoustic emission characteristics of high viscosity modified pervious asphalt mixture. Master's Thesis, Jilin University, China,2018(in Chinese). 符刘旭.高黏改性型透水沥青混合料路用性能及声发射特性研究.硕士学位论文,吉林大学,2018. 14 Huang G, Li Y, Wang T. Journal of China & Foreign Highway,2018,38(1),234(in Chinese). 黄刚,李妍,汪涛.中外公路,2018,38(1),234. 15 Liu Y, Gu X Y, Li Z G, et al. Journal of Jiangsu University(Natural Science Edition),2019,40(1),113 (in Chinese). 刘勇,顾兴宇,李志刚,等.江苏大学学报(自然科学版),2019,40(1),113. 16 Zhou Y, Huang W D, Lin P, et al. Journal of Building Materials,2018,21(1),54(in Chinese). 周艳,黄卫东,林鹏,等.建筑材料学报,2018,21(1),54. 17 JTG F40-2004. Technical specification for construction of highway asphalt pavements, China Communications Press, China,2004(in Chinese). JTG F40-2004.公路沥青路面施工技术规范,人民交通出版社,2004. 18 JTG F20-2011. Standard test methods of bitumen and bituminous mixtures for highway engineering, China Communications Press, China,2011(in Chinese). JTG F20-2011.公路工程沥青及沥青混合料试验规程,人民交通出版社,2011. 19 AASHTO-T 315, Standard method of test for determining the rheological properties of asphalt binder using a dynamic shear rheometer (DSR), American Association of State Highway and Transportation Officials, USA,2016. 20 Zhou P Y, Cheng Z H, Li X, et al. Journal of Highway and Transportation Research and Development(Application Technology Edition),2015,11(11),56(in Chinese). 周沛延,程志豪,黎晓,等.公路交通科技(应用技术版),2015,11(11),56. 21 Yu X, Sun W H, Luo Y L, et al. Journal of Building Materials,2013,16(2),266(in Chinese). 于新,孙文浩,罗怡琳,等.建筑材料学报,2013,16(2),266. 22 Sun M, Zheng M L, Bi Y F, et al. Journal of Traffic and Transportation Engineering,2019,19(2),49(in Chinese). 孙敏,郑木莲,毕玉峰,等.交通运输工程学报,2019,19(2),49.