Huang Yilin , Liang Lizhe , Tian Zhiqun , Shen Peikang . Research and engineering application of graphene modified asphalt[J]. New Chemical Materials, 2020 , 48(8) : 244 -248 . DOI: 10.19817/j.cnki.issn 1006-3536.2020.08.053

[1] Pahlavan F,Hung A M,Zadshir M,et al.Alteration of π-electron distribution to induce deagglomeration in oxidized polar aromatics and asphaltenes in an aged asphalt binder[J].ACS Sustainable Chemistry & Engineering,2018,6(5):6554-6569.
[2] 张和义.国内高速公路沥青路面结构发展概述[J].内蒙古公路与运输,2012,1:24-26.
[3] Balandin A A,Ghosh S,Bao W D,et al.Superior thermal conductivity of single-layer graphene[J].Nano Letters,2008,8:902-907.
[4]Jin J,Tan Y Q,Liu R H,et al.Structure characteristics of organic bentonite and the effects on rheological and aging properties of asphalt[J].Powder Technology,2018,329:107-114.
[5] Santagata E,Baglieri O,Tsantilis L,et al.Fatigue and healing properties of nano-reinforced bituminous binders[J].International Journal of Fatigue,2015,80:30-39.
[6] Lee C G,Wei X D,Kysar J W,et al.Measurement of the elastic properties and intrinsic strength of monolayer graphene[J].Science,2008,321:385-388.
[7] Elfadil A A,Cheng P F,Li Y M.Effects of ethylene vinyl acetate and nanoclay additions on high-temperature performance of asphalt binders[J].Construction and Building Materials,2018,169:276-282.
[8] Mayorov A S,Gorbachev R V,Morozov S V,et al.Micrometer-scale ballistic transport in encapsulated graphene at room temperature[J].Nano Lett,2011,11:2396-2399.
[9] 雷妍,刘秀军,樊桢,等.石墨烯掺杂气相生长碳纤维中间相沥青基复合材料的性能研究[J].化工新型材料,2017,45(4):35-40.
[10] 陈南,胡悦,赵扬,等.石墨烯/聚吡咯复合材料与电化学应用研究进展[J].高分子学报,2014,6:752-760.
[11] Zeng W B,Wu S P,Pang L,et al.The utilization of graphene oxide in traditional construction materials:asphalt[J].Materials,2017,10(1):48-50.
[12] Lee W J,Jang H R,Kim M J,et al.Microwave-irradiated reduced graphene oxide nanosheets for highly reversible and ultrafast sodium storage[J].Journal of Alloys and Compounds,2019,778:382-390.
[13] 杜建政.石墨烯-SBS改性沥青的性能[J].交通世界·建养机械,2015,10:144-146.
[14] 黄瑾瑜,叶群山.SBS-石墨烯复合改性沥青流变性能研究[J].交通科技,2018,1:131-133.
[15]Radhakrishnan V,Ramya S M,Sudhakar R K.Evaluation of asphalt binder rutting parameters[J].Construction and Building Materials,2018,173:298-307.
[16] Liu K F,Zhang K,Wu J L,et al.Evaluation of mechanical performance and modification mechanism of asphalt modified with graphene oxide and warm mix additives[J].Journal of Cleaner Production,2018,193:87-96.
[17] Li Y Y,Wu S P,Amirkhanian S.Investigation of the graphene oxide and asphalt interaction and its effect on asphalt pavement performance[J].Construction and Building Materials,2018,165:572-584.
[18] Tavakol M,Hossain M,Heptig B.Minimum virgin binder content needed in recycled superpave mixtures to resist fatigue cracking and moisture damage[J].Journal of Materials in Civil Engineering,2018,30(7):40-48.
[19] Li J,Han M Z,Muhammad Y,et al.Comparative analysis road performance and mechanism of modification of polystyrene graphene nanoplatelets (PS-GNPs) and octadecyl amine graphene nanoplatelets (ODA-GNPs) modified SBS incorporated asphalt Binders[J].Construction and Building Materials,2018,193:501-517.
[20] Aradhana R,Mohanty S,Nayak S K.Comparison of mechanical,electrical and thermal properties in graphene oxide and reduced graphene oxide filled epoxy nanocomposite adhesives[J].Polymer,2018,141:109-123.
[21] Yao H,Dai Q L,You Z P,et al.Rheological properties,low-temperature cracking resistance,and optical performance of exfoliated graphite nanoplatelets modified asphalt binder[J].Construction and Building Materials,2016,113:988-996.
[22] Moreno N F,Sanchez S M,Gammiz F,et al.Mechanical and thermal properties of graphene modified asphalt binders[J].Construction and Building Materials,2018,180:265-274.
[23] Li Q S,Qiu Y J,Rahman A,et al.Application of steel slag powder to enhance the low-temperature fracture properties of asphalt mastic and its corresponding mechanism[J].Journal of Cleaner Production,2018,184:21-31.
[24] Yao Z Y,Zhang J Z,Gao F L,et al.Integrated utilization of recycled crumb rubber and polyethylene for enhancing the performance of modified bitumen[J].Construction and Building Materials,2018,170:217-224.
[25] Hu J X,Wu S P,Liu Q T,et al.The effect of ultraviolet radiation on bitumen aging depth[J].Materials,2018,11:747-755.
[26] Zhang H L,Chen Z H,Xu G Q.Evaluation of aging behaviors of asphalt binders through different rheological indices[J].Fuel,2018,221:78-88.
[27] Wu S P,Zhao Z J,Li Y Y,et al.Evaluation of aging resistance of graphene oxide modified asphalt[J].Applied Sciences,2017,7(7):702-713.
[28] Yang C,Xie J,Zhou X J,et al.Performance evaluation and improving mechanisms of diatomite-modified asphalt mixture[J].Materials,2018,11:686-695.
[29] 苏东艳,高岩.欧美石墨烯增强型复合材料项目近况研究[J].江苏科技信息,2016,34:55-58.
[30] Zarrabi M,Haghighi M,Alizadeh R.Sonoprecipitation dispersion of ZnO nanoparticles over graphene oxide used in photocatalytic degradation of methylene blue in aqueous solution:influence of irradiation time and power[J].Ultrasonics Sonochemistry,2018,48:370-382.
[31] 罗芳艳.一种高热传导效率路用沥青及制备方法:中国,103694717[P].2018-02-06.
[32] 畅润田.一种基于氧化石墨烯的SBS改性沥青及其制备方法:中国,104448868[P].2015-03-25.
[33] 于瑞恩.氧化石墨烯/聚氨酯复配改性沥青的制备和性能研究[D].西安:西安理工大学,2016.
[34] Zhang Z P,Jia M,Jiao W X,et al.Physical properties and microstructures of organic rectorites and their modified asphalts[J].Construction and Building Materials,2018,171:33-43.
[35] 黄刚,何兆益,周超,等.膨胀石墨抑制沥青烟机理与抑烟沥青混合料动态性能[J].中国公路学报,2015,28(10):1-10.
[36] 不公开.一种沥青改性剂及其制备方法:中国,106977967[P].2017-07-25.
[37] 不公开.一种高性能沥青添加剂:中国,106995613[P].2017-08-01.
[38] 李晶.一种含改性石墨烯微片的复合沥青改性及及其制备方法和应用:中国,106832977[P].2017-06-13.
[39] 张庆.一种具有抗剥落性能的新型改性沥青及其制备方法:中国,106280506[P].2017-01-04.
[40] 黄卫东.羧基改性氧化石墨烯改性橡胶沥青混合料及其制备方法:中国,107082592[P].2017-08-22.
[41] Han M Z,Li J,Muhammad Y,et al.Effect of polystyrene grafted graphene nanoplatelets on the physical and chemical properties of asphalt binder[J].Construction and Building Materials,2018,174:108-119.
[42] Amin I,Shrtf M E,Breakah T,et al.Laboratory evaluation of asphalt binder modified with carbon nanotubes for Egyptian climate[J].Construction and Building Materials,2016,121:361-372.
[43] 朱俊材,李泉,刘克非.氧化石墨烯改性沥青结合料的性能[J].中国粉体技术,2018,24(4):70-76.
[44] 佚名.石墨烯应用:改性沥青,显著提高道路寿命[EB/OL].(2017-11-29).https://www.sohu.com/a/207652573＿99948711.
[45] 田植群.石墨烯复合橡胶沥青改性剂及其制备方法和应用:中国,108690360[P].2018-10-23.
[46] 田植群.用于沥青改性的石墨烯材料及制备方法和应用:中国,109232985[P].2019-01-08.
[47] 广西大学网站新闻中心.南宁建成世界首条石墨烯复合橡胶改性沥青路面[J].市政技术,2018,4(36):1.
[48] 陶志金.甘肃首条石墨烯复合橡胶改性沥青路面试验段在兰州南绕城项目铺筑完成[EB/OL].(2018-09-12).http://www.ghatg.com/single/10799/16445.html.
[49] 陈箫剑.河池至百色高速公路石墨烯沥青路面试验路圆满完成[EB/OL].(2018-10-16).http://www.gxgsgl.com/9/20181016100230＿1928.html.