Experimental Analysis of High- and Low-Temperature Rheological Properties of Revulcanized Rubber Powder-SBS Composite Modified Asphalt

Authors

FENG Hao, No. 5 Engineering Co., Ltd. of CCCC First Harbor Engineering Co., Ltd., Qinhuangdao, Hebei 066000, ChinaFollow
YANG Zhaodong, No. 5 Engineering Co., Ltd. of CCCC First Harbor Engineering Co., Ltd., Qinhuangdao, Hebei 066000, China
FENG Xuran, Zhejiang Branch, Liaoning Provincial Transportation Planning and Design Institute Co., Ltd., Ningbo, Zhejiang 315100, ChinaFollow
LIN Bin, No. 5 Engineering Co., Ltd. of CCCC First Harbor Engineering Co., Ltd., Qinhuangdao, Hebei 066000, China
YAO Ailing, Chang’an University, Xi’an, Shaanxi 710064, China
WANG Kang, Chang’an University, Xi’an, Shaanxi 710064, China

Corresponding Author

冯旭冉, 男, 硕士, 助理工程师.E-mail: 598786817@qq.com

Abstract

This paper aims to explore the performance recovery of desulfurized rubber powder in the desulfurized rubber powder-SBS composite modified asphalt after revulcanization treatment. By using 18% rubber powder-2% SBS composite modified asphalt, a desulfurized rubber powder-SBS composite modified asphalt was first prepared via a microwave pyrolysis desulfurization process. Subsequently, a vulcanizing agent was added to the system to prepare the revulcanized rubber powder-SBS composite modified asphalt. Experiments determined the optimal microwave pyrolysis desulfurization duration for rubber powder to be 5 min, and the optimal sulfur dosage was 6% by mass of the desulfurized rubber powder. A comparative analysis of the high- and low-temperature rheological properties of three composite modified asphalts (non-desulfurized, desulfurized, and revulcanized) shows that compared to the desulfurized rubber powder composite modified asphalt, the revulcanized rubber powder composite modified asphalt exhibits significantly improved viscoelasticity, deformation recovery rate, and deformation resistance under high-temperature conditions. Meanwhile, its deformation resistance and durability in low-temperature environments are also significantly improved, with all performance indicators restored to the levels of the non-desulfurized rubber powder-SBS composite modified asphalt. Infrared spectroscopy tests indicate that the addition of the vulcanizing agent restores C‒S bonds and partially restores S‒S bonds in the desulfurized rubber powder. These results confirm the effectiveness of revulcanization treatment in recovering the performance of desulfurized rubber powder-SBS composite modified asphalt, providing a theoretical basis and practical reference for related research and engineering applications.

Publication Date

2-5-2026

DOI

10.14048/j.issn.1671-2579.2026.01.012

First Page

115

Last Page

121

Submission Date

February 2026

Recommended Citation

Hao, FENG; Zhaodong, YANG; Xuran, FENG; Bin, LIN; Ailing, YAO; and Kang, WANG (2026) "Experimental Analysis of High- and Low-Temperature Rheological Properties of Revulcanized Rubber Powder-SBS Composite Modified Asphalt," Journal of China & Foreign Highway: Vol. 46: Iss. 1, Article 12.
DOI: 10.14048/j.issn.1671-2579.2026.01.012
Available at: https://zwgl1980.csust.edu.cn/journal/vol46/iss1/12

Reference

[1]赵昕,谢昆,张浩,等.废旧胶粉沥青最优性能制备研究[J].应用化工,2022,51(12):3586 -3591.ZHAO Xin,XIE Kun,ZHANG Hao,et al.Experimental study on the optimal performance preparation method of waste rubber powder asphalt [J].Applied Chemical Industry,2022,51(12):3586 -3591.
[2]杨三强,周晓雨,闰明涛,等.废旧胶粉掺量对改性沥青溶胀机理的影响 [J].长沙理工大学学报 (自然科学版 ),2018,15(4):17-22.YANG Sanqiang,ZHOU Xiaoyu,RUN Mingtao,et al.Microscopic characteristics of rubber modified asphalt in different rubber powder content [J].Journal of Changsha University of Science & Technology (Natural Science ),2018,15(4):17-22.
[3]冯新军,戴子建.胶粉表面功能化减少胶粉改性沥青离析的研究 [J].中外公路,2021,41(6):221-226.FENG Xinjun,DAI Zijian.Surface functionalization of rubber particles to reduce phase separation in rubberized asphalt for sustainable construction [J].Journal of China & Foreign Highway,2021,41(6):221-226.
[4]王寒冰,王仕峰.高掺量橡胶沥青技术发展与探讨 [J].中国胶粘剂,2024,33(1):57-62,70.WANG Hanbing,WANG Shifeng.Development and discussion of high-content rubberized asphalt technology[J].China Adhesives,2024,33(1):57-62,70.
[5]李波,王静,曹贵,等.废旧胶粉特性对橡胶沥青高温性能的影响机理 [J].应用基础与工程科学学报,2017,25(2):347-355.LI Bo,WANG Jing,CAO Gui,et al.Influence mechanism of crumb rubber characteristics on high-temperature performance for rubber modified asphalt binder [J].Journal of Basic Science and Engineering,2017,25(2):347-355.
[6]冯新军,杨洪阳,肖洪海,等.基于 SBS结构修复的再生沥青性能及机理研究 [J].中外公路,2024,44(4):56-63.FENG Xinjun,YANG Hongyang,XIAO Honghai,et al.Properties and mechanism of reclaimed asphalt based on SBS structure repair [J].Journal of China & Foreign Highway,2024,44(4):56-63.
[7]王子鹏,张云飞,赵增刚,等.硫化橡胶沥青和脱硫橡胶沥青的性能评估 [J].武汉理工大学学报 (交通科学与工程版 ),2024,48(4):771-775.WANG Zipeng,ZHANG Yunfei,ZHAO Zenggang,et al.Performance evaluation of vulcanized rubber asphalt and desulfurized RubberAsphalt [J].Journal of Wuhan University of Technology (Transportation Science & Engineering ),2024,48(4):771-775.
[8]杨晚生,易帅兵,戴天乐,等.废轮胎热解炭黑 (TPCB )改性沥青抗紫外老化性能试验研究 [J].中外公路,2024,44(2):103-109.YANG Wansheng,YI Shuaibing,DAI Tianle,et al.Experimental research on anti-UV aging performance of tire pyrolysis carbon black (TPCB ) modified asphalt [J].Journal of China & Foreign Highway,2024,44(2):103-109.
[9]林大军.高掺量胶粉复合改性沥青制备及存储稳定性研究[J].科学技术创新,2023 (24):169-172.LIN Dajun.Research on the preparation and storage stability of high content rubber powder composite modified asphalt [J].Scientific and Technological Innovation,2023 (24):169-172.
[10]交通运输部公路科学研究所 .公路沥青路面施工技术规范:JTG F 40—2004 [S].北京:人民交通出版社,2005.Research Institute of Highway Ministry of Transport.Technical specification for construction of highway asphalt pavements:JTG F 40—2004 [S].Beijing:China Communications Press,2005.
[11]梁云.橡胶微波硫化过程中的温度场研究 [D].青岛:青岛科技大学,2016.LIANG Yun.Study on temperature field during microwave vulcanization of rubber [D].Qingdao:Qingdao University of Science & Technology,2016.
[12]刘旭.微波活化胶粉改性沥青及其混合料路用性能研究[J].交通世界,2024 (25):20-22.LIU Xu.Study on road performance of microwave activated rubber powder modified asphalt and its mixture[J].TranspoWorld,2024 (25):20-22.
[13]交通运输部公路科学研究院 .公路工程沥青及沥青混合料试验规程:JTG E 20—2011 [S].北京:人民交通出版社,2011.Research Institute of Highway Ministry of Transport.Standard test methods of bitumen and bituminous mixtures for highway engineering:JTG E 20—2011 [S].Beijing:China Communications Press,2011.
[14]郭咏梅,倪富健.基于 DSR的改性沥青及混合料动态黏弹性能 [J].东南大学学报 (自然科学版 ),2014,44(2):386-390.GUO Yongmei,NI Fujian.Dynamic viscoelastic properties of modified asphalt and mixture based on DSR[J].Journal of Southeast University (Natural Science Edition ),2014,44(2):386-390.
[15]周志刚,陈功鸿,张红波,等.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,et al.Study on the preparation and properties of modified asphalt by rubber powder/SBS and high viscosity modifier composite [J].Materials Reports,2021,35(6):6093 -6099.
[16]张泽.高掺量橡胶复合改性沥青及混合料路用性能及应用研究 [D].重庆:重庆交通大学,2022.ZHANG Ze.Study on road performance and application of high content rubber composite modified asphalt and mixture [D].Chongqing:Chongqing Jiaotong University,2022.
[17]龚演,袁海蛟,刘军海,等.高掺量橡胶改性沥青的高温流变性能与评价指标 [J].公路交通科技,2023,40(增刊1):49-57.GONG Yan,YUAN Haijiao,LIU Junhai,et al.Rheological properties and evaluation index of high content asphalt rubber at high temperature [J].Journal of Highway and Transportation Research and Development,2023,40(sup 1):49-57.
[18]JIANG J W,NI F J,ZHENG J Q,et al.Improving the high-temperature performance of cold recycled mixtures by polymer-modified asphalt emulsion [J].International Journal of Pavement Engineering,2020,21(1):41-48.
[19]王岚,单鸣宇,常春清.基于 DIC技术的老化作用下温拌胶粉改性沥青胶浆低温抗裂性能研究 [J].中国公路学报,2020,33(10):265-275.WANG Lan,SHAN Mingyu,CHANG Chunqing.Low-temperature crack resistance of warm-mixed crumb rubber asphalt mortar under aging effect based on DIC technology [J].China Journal of Highway and Transport,2020,33(10):265-275.
[20]丁天雨,杨洋,晏永,等.低温脱硫预处理制备橡胶改性沥青的研究 [J].材料导报,2024,38(增刊 2):633-639.DING Tianyu,YANG Yang,YAN Yong,et al.Study on preparation of asphalt rubber by low temperature desulfurization pretreatment [J].Materials Reports,2024,38(sup 2):633-639.
[21]刘银春,孙云志,汤雄,等.废旧橡胶复合改性沥青路用性能研究 [J].四川建材,2024,50(5):13-14.LIU Yinchun,SUN Yunzhi,TANG Xiong,et al.Study on road performance of composite modified asphalt with waste rubber [J].Sichuan Building Materials,2024,50(5):13-14.
[22]XIN X,ZHANG L,LYU X J,et al.Gradient activation mechanism and performance evaluation of highly-WTR modified asphalt [J].Construction and Building Materials,2025,465:140200.
[23]XIE J,LI S H,HE W,et al.Molecular simulation of graft-activated crumb rubber modified asphalt:A study on high temperature performance and its interface behavior with aggregate [J].Surfaces and Interfaces,2025,58:105827.
[24]DONG F Q,JIANG Y,YU X,et al.Reconstruction of crosslinked network in terminal blend rubber powder modified asphalt with BR to enhance thermal storage stability and rheological properties [J].Construction and Building Materials,2025,458:139751.
[25]程培峰,白月,李艺铭,等.玉米秸秆油对老化沥青流变性能的影响及其再生效果研究 [J].中外公路,2024,44(6):124-133.CHENG Peifeng,BAI Yue,LI Yiming,et al.Effect of corn stover oil on rheological properties of aged asphalt and its regeneration effect [J].Journal of China & Foreign Highway,2024,44(6):124-133.
[26]ZHAO M Z,DONG R K,ZHANG Y,et al.Influence of crosslinking effect on chemical and rheological properties of aged liquid bio-rubber composite SBS modified asphalt[J].Road Materials and Pavement Design,2024,25(6):1298 -1323.