Preparation of composite emulsified asphalt and its properties of micro-surface mixtures

Abstract

Abstract: In order to improve the road performance of ordinary emulsified asphalt in the micro surface mixture, the emulsified asphalt with high performance was prepared by the method of emulsification first and then modification. The addition method of modifier and the proportion of modifier blending were determined by using the indexes of ductility and softening point, and then it is used as cementing material for the micro-surface mixture. The performance of resistance to water damage and wear resistance of the wet wheel were verified by the wear test (WTAT), and its crack resistance and shear resistance were verified by splitting test and high-temperature rut test. The results show that the softening point and ductility of the composite modified emulsified asphalt are better than ordinary emulsified asphalt, while the blending ratio of SBR with waterborne epoxy resin is 3.5% to 2.5%, ductility and softening point can reach 400 mm and above 70 ℃.The performance test of the mixture showed that the micro surface mixture made of modified emulsified asphalt had significant advantages in water loss resistance/wear resistance, crack resistance and shear resistance compared with the ordinary micro surface mixture.

Key words: composite modification, micro-surfacing, performance of resistance to water damage, wear resistance, cracking resistance, the shear performance

CLC Number:

U414

SHI Fu-zhou, JIA Xiao-jun, WANG Zhen, LIU Xiao-pei, WU Jia-yun. Preparation of composite emulsified asphalt and its properties of micro-surface mixtures[J]. Journal of Lanzhou University of Technology, 2021, 47(2): 138-143.

References

[1] 韩春来.沥青路面预防性养护理念及技术[D].长沙:长沙理工大学,2011.
[2] 王朝辉,胡中华,周本岳.SBR改性乳化沥青的研制[J].石油沥青,2009,23(5):41-43.
[3] 赵毅,陈玉欣,秦旻,等.SBR改性沥青混合料低温稳定性研究[J].公路工程,2014,39(2):269-273.
[4] 陈楚洲,张荣辉.水性环氧树脂在桥梁维护中的应用[J].广东公路交通,2007,33(1):47-49.
[5] DESTREI M D G,VOGELSANG J,FEDRIZZI L.Water up-take evaluation of new waterborne and high solid epoxy coatings Part II:electro chemical impedance spectroscopy[J].Progress in Organic Coatings,1999,37:69-81.
[6] 常卫平.水性环氧乳化沥青的应用研究[D].北京:北京建筑大学,2016.
[7] 何远航,张荣辉.水性环氧树脂改性乳化沥青在公路养护中的应用[J].新型建筑材料,2007,34(5):37-40.
[8] 王伟明,吴旷怀,王凤华,等.新型SBR复合改性乳化沥青研制与性能研究[J].中外公路,2014,34(5):235-240.
[9] 李胜杰.蒙脱土丁苯橡胶复合改性乳化浙青的制备及性能硏究[D].北京:北京化工大学,2016.
[10] 交通部公路科学研究所.公路工程沥青及沥青混合料试验规程:JTG E20—2011[S].北京:人民交通出版社,2011.
[11] 李云雁,胡传荣.试验设计与数据处理[M].北京:化学工业出版社,2010.
[12] 孙晓立,张肖宁.SBS改性乳化沥青的研制及路用性能室内试验研究[J].同济大学学报(自然科学版),2012,40(6):867-870.
[13] 王海有.微表处特殊性能分析及其合理应用[J].公路交通科技(应用技术版),2011,7(2):69 -72.
[14] 孙晓立,张肖宁,蔡旭,等.基于加速加载试验的微表处长期路用性能[J].同济大学学报(自然科学版),2012,40(5):691-695
[15] SON H J,KIM Y J,BAEK J E,et al.Influences of curing time on polymer-modified emulsion used for slurry seal and micro-surfacing mixes[C]//ASCE International Conference on Sustainable Civil Infrastructure.Reston,US:ASCE,2014:35-42.
[16] SON H J,KIM Y J,BAEK J E,et al.Field performance evaluation of micro-surfacing method and polymer slurry seal method used in national highway[J].International Journal of Highway Engineering,2015,17(1):17-24.
[17] 张庆,郝培文,白正宇,等.水性环氧树脂改性微表处性能影响及评价研究[J].公路,2015,60(6):250-252.
[18] 周启伟,徐光红,王庆珍,等.水性环氧乳化沥青性能及其微表处修复车辙效果评价[J].公路工程,2017,42(5):247 -251.