沥青抗紫外光老化方法研究进展
|
摘要
沥青的抗紫外光老化性能是影响沥青路面长期服役寿命的重要因素。随着国际上长寿命沥青路面理念的提出,为保证沥青路面具有良好的长期服役性能,亟需提高沥青的抗紫外光老化性能。总结归纳了国内外常见的沥青抗紫外光老化方法,评价了不同方法对沥青抗紫外光老化性能的改善效果,并论述了每种抗紫外光老化方法的优缺点及改进措施,以期为提出更加高效的沥青抗紫外光老化措施提供一定的借鉴意义。这对于我国强紫外线辐射地区沥青路面的建设与使用具有重要的理论与现实意义。
The ultraviolet(UV) aging resistance property of bitumen is one of the significant factors influencing the bituminous pavement' s service life. With the idea of long-life asphalt pavement in the world,it is urgent to improve the UV aging resistance of asphalt to ensure that asphalt pavement have long service life. Based on the conclusion of the existing methods for improving the UV aging resistance of asphalt home and abroad, the improvement effect of each method is evaluated in this paper. The advantages and disadvantages of each method are elaborated, and suggestions are also given in order to provide guidance for more efficient methods. It is of great theoretical and practical significance for the construction and use of asphalt pavement,especially in the strong UV radiation areas of China.
The ultraviolet(UV) aging resistance property of bitumen is one of the significant factors influencing the bituminous pavement' s service life. With the idea of long-life asphalt pavement in the world,it is urgent to improve the UV aging resistance of asphalt to ensure that asphalt pavement have long service life. Based on the conclusion of the existing methods for improving the UV aging resistance of asphalt home and abroad, the improvement effect of each method is evaluated in this paper. The advantages and disadvantages of each method are elaborated, and suggestions are also given in order to provide guidance for more efficient methods. It is of great theoretical and practical significance for the construction and use of asphalt pavement,especially in the strong UV radiation areas of China.
引文
[1]冯振刚.紫外光吸收剂对沥青性能的影响及其作用机理研究[D].武汉:武汉理工大学,2013.
[2]谭忆秋,王佳妮,冯中良,周兴业,徐慧宁.沥青结合料紫外老化机理[J].中国公路学报,2008,(01):19-24.
[3]庞凌.沥青紫外光老化特性研究[D].武汉:武汉理工大学,2008.
[4]Hu Jinxuan,Wu Shaopeng,Liu Quantao,et al.Effect of ultraviolet radiation in different wavebands on bitumen[J].Construction and Building Materials,2018,(159):479-485.
[5]石巍,向秀琴,张军,等.半补强炭黑对增塑PVC的紫外光稳定性的影响[J].聚氯乙烯,2009,37(03):25-29.
[6]Li Jiasheng,Yu Jianying,Wu Shaopeng,et al.Effect of inorganic ultraviolet resistance nanomaterials on the physical and rheological properties of bitumen[J].Construction and Building Materials,2017,(152):832-838.
[7]Abdelkader Chaala,Christian Roy,Abdellatif AitKadi.Rheological properties of bitumen modified with pyrolytic carbon black[J].Fuel,1996,75(13):1575-1583.
[8]Yamaguchi Katsuyuki,Sasaki Iwao,Meiarashi Seishi.Mechanism of Asphalt Binder Aging by Ultraviolet Irradiation and Aging Resistance by Adding Carbon Black[J].Journal of the Japan Petroleum Institute,2004,47(4):266-273.
[9]Yamaguchi Katsuyuki,Sasaki Iwao,Nishizaki Itaru,et al.Effects of Film Thickness,Wavelength,and Carbon Black on Photodegradation of Asphalt[J].Journal of the Japan Petroleum Institute,2005,48(3):150-155.
[10]郑远,叶奋.AW、BLE、炭黑改性沥青的老化性能研究[J].公路,2007,(2):127-131.
[11]Feng Zhengang,Rao Wenyu,Chen Chong,et al.Performance evaluation of bitumen modified with pyrolysis carbon black made from waste tyres[J].Construction and Building Materials 2016,(111):495-501.
[12]郭欣.SBS复合改性沥青存储稳定性及沥青混合料性能影响[D].乌鲁木齐:新疆大学,2017.
[13]冯振刚,孙安石,张东阳,等.废橡胶裂解炭黑改性沥青混合料的黏弹特性研究[J/OL].郑州大学学报(工学版),2018,39(1):7-11.
[14]江承建.不同紫外强度下耐老化沥青性能与适用性研究[D].武汉:武汉理工大学,2015.
[15]王辉,任冶,刘成虎.零维纳米材料对沥青性能影响的研究综述[J].公路与汽运,2016,(1):91-94.
[16]Li Rui,Pei Jianzhong,Sun Changle.Effect of nanoZnO with modified surface on properties of bitumen[J].Construction and Building Materials,2015,(98):656-661.
[17]肖鹏,李雪峰.纳米ZnO/SBS改性沥青性能与机理的研究[J].公路交通科技,2007,(6):12-16.
[18]Zhang Henglong,Zhu Chongzheng,Yu Jianying,et al.Influence of surface modification on physical and ultraviolet aging resistance of bitumen containing inorganic nanoparticles[J].Construction and Building Materials,2015,(98):735-740.
[19]孙璐,辛宪涛,王鸿遥,等.多维数多尺度纳米材料改性沥青的微观机理[J].硅酸盐学报,2012,40(10):1437,1447.
[20]常海洲,张洪亮.纳米CaCO_3/SBS复合改性沥青性能与机理的研究[J].公路交通科技(应用技术版),2013,9(11):28-31.
[21]孙培,韩森,张洪亮,等.纳米CaCO_3/SBR复合改性沥青及混合料的高温性能[J].材料导报,2016,30(8):122-126.
[22]马峰.纳米破酸钙改性沥青路用性能及改性机理研究[D].西安:长安大学,2004.
[23]马峰,张超,傅珍.纳米碳酸钙改性沥青的路用性能及机理研究[J].武汉理工大学学报(交通科学与工程版),2007,(1):88-91.
[24]Zhu Chongzheng,Zhang Henglong,Shi Caijun,et al.Effect of nano-zinc oxide and organic expanded vermiculite on rheological properties of different bitumens before and after aging[J].Construction and Building Materials,2017,(146):30-37.
[25]Zhang H B,Zhang H L,Ke N X,Huang J H,Zhu C Z.The Effect of different nanomaterials on the longterm aging properties of bitumen[J].Petroleum Science and Technology,2015,(33):388-396.
[26]张春青,王妍,熊玲.纳米Ti0_2改性沥青抗紫外线老化能力研究[J].公路与汽运,2011,(3):88-91.
[27]谭邦耀.蛭石与纳米二氧化钛复配改性沥青的制备与性能研究[D].长沙:湖南大学,2015.
[28]苑广友.Ti02基尾气降解沥青路面材料开发与性能评价[D].北京:北京建筑大学,2016.
[29]李文博,于江,李林萍.纳米Ti0_2封层式光催化分解尾气型沥青路面研究[J].中外公路,2017,37(5):36-40.
[30]吴平,王选仓.TiO_2改性乳化沥青薄层革面的净化性能[J].江苏大学学报(自然科学版),2017,38(01):113-118.
[31]梁慧,吕斌.纳米Ti02材料对沥青抗紫外光老化的作用[J].重庆交通大学学报(自然科学版),2013,32(2):203-206.
[32]孙式霜,王彦敏.纳米Ti02改性沥青抗光老化性能研究[J].山东交通学院学报,2011,19(2):46-49.
[33]于江,李文博,李林萍.纳米二氧化钛对沥青老化性能的影响研究[J].重庆交通大学学报(自然科学版),2017,36(10):26-30.
[34]张恒龙,谭邦耀,朱崇政.有机蛭石与纳米二氧化钛复配改性沥青的抗老化性能研究[J].中国科技论文,2016,11(7):728-732+750.
[35]Galooyak Saeed Sadeghpour,Dabir Bahram,Nazarbeygi Ali Ehsan,et al.Rheological properties and storage stability of bitumen/SBS/montmorillonite composites[J].Construction and Building Materials,2010,(24):300-307.
[36]Zhang Henglong,Yu Jianying,Wang Huacai,et al.Investigation of microstructures and ultraviolet aging properties of organo-montmorillonite/SBS modified bitumen[J].Materials Chemistry and Physics,2011,(129):769-776.
[37]王有和,盖仕辉,庞玉锋,等.蒙脱土的有机化改性研究[J].矿产保护与利用,2009,(4):20-23.
[38]郭妍婷,黄雪,陈曼,等.蒙脱土的有机改性研究进展[J].化工新型材料,2017,45(3):37-39.
[39]王华才.沥青/有机化蒙脱土复合材料的结构及紫外老化研究[D].武汉理工大学,2010.
[40]Zhang H L,Yu J Y,Xue L H,et aL Effect of montmorillonite organic modification on microstructures and ultraviolet aging properties of bitumen[J].Journal of Microscopy,2011,(244):85-92.
[41]Zhang Henglong,Shi Caijun,Han Jun,et al.Effect of organic layered silicates on flame retardancy and aging properties of bitumen[J].Construction and Building Materials,2013,(40):1151-1155.
[42]朱明广,王迎春,李文志,等.有机蒙脱土对沥青抗紫外老化性能影响的研究[J].中国建筑防水,2017,(1):6-9.
[43]Feng Zhengang,Wang Shujuan,Bian Huijuan,et al.FTIR and rheology analysis of aging on different ultraviolet absorber modified bitumens[J].Construction and Building Materials,2016,(115):48-53.
[44]董文龙,刘黎萍,宋文霞,等.紫外线添加剂对沥青紫外线老化的改善作用[J].石油沥青,2007,21(1):6-9.
[45]董文龙,刘黎萍,江涛,等.添加剂剂量对改善沥青紫外线老化作用的影响分析[J].山东交通学院学报,2006,(4):58-62.
[46]冯振刚,朱昊,李新军,等.紫外光吸收剂UV531对SBS改性沥青性能的影响[J].武汉理工大学学报,2015,37(12):53-58.
[47]冯振刚,陈冲,栗培龙,等.紫外光吸收剂改性沥青的流变与老化性能[J].公路,2016,61(1):206-210.
[48]徐松.LDHs/抗氧剂/弹性体改性沥青的制备与性能研究[D].武汉:武汉理工大学,2014.
[49]高丽,徐松,李玉环,等.LDHs/紫外吸收剂复合改性对沥青性能的影响研究[J].武汉理工大学学报,2015,37(1):45-50.
[50]刘武.层状纳米材料/聚合物复合改性沥青的制备与性能[D].广州:华南理工大学,2015.
[51]姚婷婷.紫外吸收剂/LDHs改性沥青的制备与性能研究[D].武汉:武汉理工大学,2014.
[52]Xu Song,Yu Jianying,Sun Yubin,et al.Synthesis and characterization of organic intercalated layered double hydroxides and their application in bitumen modification[J].Materials Chemistry and Physics,2015,(152):54-61.
[53]李凯涛,林彦军.插层结构紫外阻隔材料及其在沥青中的应用进展[J].石油化工,2016,45(11):1300-1309.
[54]Wu Hong,Li Lian,Yu Jianying,et al.Effect of layered double hydroxides on ultraviolet aging properties of different bitumens[J].Construction and Building Materials,2016,(111):565-570.
[55]Xu Song,Li Lian,Yu Jianying,et al.Investigation of the ultraviolet aging resistance of organic layered double hydroxides modified bitumen[J].Construction and Building Materials,2015,(96):127-134.
[56]Sun Yihan,Wu Shaopeng,Liu Quantao,et al.Promoting the dispersion of LDHs powder in bitumen with pre-dispersion and microwave heating[J].Construction and Building Materials,2015,(93):416-426.
[57]Xu Song,Yu Jianying,Wu Weifei,et al Synthesis and characterization of layered double hydroxides intercalated by UV absorbents and their application in improving UV aging resistance of bitumen[J].Applied Clay Science,2015,(114):112-119.
[58]Wu Shaopeng,Han Jun,Pang Ling,et al.Rheological properties for aged bitumen containing ultraviolate light resistant materials[J].Construction and Building Materials,2012,(33):133-138.
[2]谭忆秋,王佳妮,冯中良,周兴业,徐慧宁.沥青结合料紫外老化机理[J].中国公路学报,2008,(01):19-24.
[3]庞凌.沥青紫外光老化特性研究[D].武汉:武汉理工大学,2008.
[4]Hu Jinxuan,Wu Shaopeng,Liu Quantao,et al.Effect of ultraviolet radiation in different wavebands on bitumen[J].Construction and Building Materials,2018,(159):479-485.
[5]石巍,向秀琴,张军,等.半补强炭黑对增塑PVC的紫外光稳定性的影响[J].聚氯乙烯,2009,37(03):25-29.
[6]Li Jiasheng,Yu Jianying,Wu Shaopeng,et al.Effect of inorganic ultraviolet resistance nanomaterials on the physical and rheological properties of bitumen[J].Construction and Building Materials,2017,(152):832-838.
[7]Abdelkader Chaala,Christian Roy,Abdellatif AitKadi.Rheological properties of bitumen modified with pyrolytic carbon black[J].Fuel,1996,75(13):1575-1583.
[8]Yamaguchi Katsuyuki,Sasaki Iwao,Meiarashi Seishi.Mechanism of Asphalt Binder Aging by Ultraviolet Irradiation and Aging Resistance by Adding Carbon Black[J].Journal of the Japan Petroleum Institute,2004,47(4):266-273.
[9]Yamaguchi Katsuyuki,Sasaki Iwao,Nishizaki Itaru,et al.Effects of Film Thickness,Wavelength,and Carbon Black on Photodegradation of Asphalt[J].Journal of the Japan Petroleum Institute,2005,48(3):150-155.
[10]郑远,叶奋.AW、BLE、炭黑改性沥青的老化性能研究[J].公路,2007,(2):127-131.
[11]Feng Zhengang,Rao Wenyu,Chen Chong,et al.Performance evaluation of bitumen modified with pyrolysis carbon black made from waste tyres[J].Construction and Building Materials 2016,(111):495-501.
[12]郭欣.SBS复合改性沥青存储稳定性及沥青混合料性能影响[D].乌鲁木齐:新疆大学,2017.
[13]冯振刚,孙安石,张东阳,等.废橡胶裂解炭黑改性沥青混合料的黏弹特性研究[J/OL].郑州大学学报(工学版),2018,39(1):7-11.
[14]江承建.不同紫外强度下耐老化沥青性能与适用性研究[D].武汉:武汉理工大学,2015.
[15]王辉,任冶,刘成虎.零维纳米材料对沥青性能影响的研究综述[J].公路与汽运,2016,(1):91-94.
[16]Li Rui,Pei Jianzhong,Sun Changle.Effect of nanoZnO with modified surface on properties of bitumen[J].Construction and Building Materials,2015,(98):656-661.
[17]肖鹏,李雪峰.纳米ZnO/SBS改性沥青性能与机理的研究[J].公路交通科技,2007,(6):12-16.
[18]Zhang Henglong,Zhu Chongzheng,Yu Jianying,et al.Influence of surface modification on physical and ultraviolet aging resistance of bitumen containing inorganic nanoparticles[J].Construction and Building Materials,2015,(98):735-740.
[19]孙璐,辛宪涛,王鸿遥,等.多维数多尺度纳米材料改性沥青的微观机理[J].硅酸盐学报,2012,40(10):1437,1447.
[20]常海洲,张洪亮.纳米CaCO_3/SBS复合改性沥青性能与机理的研究[J].公路交通科技(应用技术版),2013,9(11):28-31.
[21]孙培,韩森,张洪亮,等.纳米CaCO_3/SBR复合改性沥青及混合料的高温性能[J].材料导报,2016,30(8):122-126.
[22]马峰.纳米破酸钙改性沥青路用性能及改性机理研究[D].西安:长安大学,2004.
[23]马峰,张超,傅珍.纳米碳酸钙改性沥青的路用性能及机理研究[J].武汉理工大学学报(交通科学与工程版),2007,(1):88-91.
[24]Zhu Chongzheng,Zhang Henglong,Shi Caijun,et al.Effect of nano-zinc oxide and organic expanded vermiculite on rheological properties of different bitumens before and after aging[J].Construction and Building Materials,2017,(146):30-37.
[25]Zhang H B,Zhang H L,Ke N X,Huang J H,Zhu C Z.The Effect of different nanomaterials on the longterm aging properties of bitumen[J].Petroleum Science and Technology,2015,(33):388-396.
[26]张春青,王妍,熊玲.纳米Ti0_2改性沥青抗紫外线老化能力研究[J].公路与汽运,2011,(3):88-91.
[27]谭邦耀.蛭石与纳米二氧化钛复配改性沥青的制备与性能研究[D].长沙:湖南大学,2015.
[28]苑广友.Ti02基尾气降解沥青路面材料开发与性能评价[D].北京:北京建筑大学,2016.
[29]李文博,于江,李林萍.纳米Ti0_2封层式光催化分解尾气型沥青路面研究[J].中外公路,2017,37(5):36-40.
[30]吴平,王选仓.TiO_2改性乳化沥青薄层革面的净化性能[J].江苏大学学报(自然科学版),2017,38(01):113-118.
[31]梁慧,吕斌.纳米Ti02材料对沥青抗紫外光老化的作用[J].重庆交通大学学报(自然科学版),2013,32(2):203-206.
[32]孙式霜,王彦敏.纳米Ti02改性沥青抗光老化性能研究[J].山东交通学院学报,2011,19(2):46-49.
[33]于江,李文博,李林萍.纳米二氧化钛对沥青老化性能的影响研究[J].重庆交通大学学报(自然科学版),2017,36(10):26-30.
[34]张恒龙,谭邦耀,朱崇政.有机蛭石与纳米二氧化钛复配改性沥青的抗老化性能研究[J].中国科技论文,2016,11(7):728-732+750.
[35]Galooyak Saeed Sadeghpour,Dabir Bahram,Nazarbeygi Ali Ehsan,et al.Rheological properties and storage stability of bitumen/SBS/montmorillonite composites[J].Construction and Building Materials,2010,(24):300-307.
[36]Zhang Henglong,Yu Jianying,Wang Huacai,et al.Investigation of microstructures and ultraviolet aging properties of organo-montmorillonite/SBS modified bitumen[J].Materials Chemistry and Physics,2011,(129):769-776.
[37]王有和,盖仕辉,庞玉锋,等.蒙脱土的有机化改性研究[J].矿产保护与利用,2009,(4):20-23.
[38]郭妍婷,黄雪,陈曼,等.蒙脱土的有机改性研究进展[J].化工新型材料,2017,45(3):37-39.
[39]王华才.沥青/有机化蒙脱土复合材料的结构及紫外老化研究[D].武汉理工大学,2010.
[40]Zhang H L,Yu J Y,Xue L H,et aL Effect of montmorillonite organic modification on microstructures and ultraviolet aging properties of bitumen[J].Journal of Microscopy,2011,(244):85-92.
[41]Zhang Henglong,Shi Caijun,Han Jun,et al.Effect of organic layered silicates on flame retardancy and aging properties of bitumen[J].Construction and Building Materials,2013,(40):1151-1155.
[42]朱明广,王迎春,李文志,等.有机蒙脱土对沥青抗紫外老化性能影响的研究[J].中国建筑防水,2017,(1):6-9.
[43]Feng Zhengang,Wang Shujuan,Bian Huijuan,et al.FTIR and rheology analysis of aging on different ultraviolet absorber modified bitumens[J].Construction and Building Materials,2016,(115):48-53.
[44]董文龙,刘黎萍,宋文霞,等.紫外线添加剂对沥青紫外线老化的改善作用[J].石油沥青,2007,21(1):6-9.
[45]董文龙,刘黎萍,江涛,等.添加剂剂量对改善沥青紫外线老化作用的影响分析[J].山东交通学院学报,2006,(4):58-62.
[46]冯振刚,朱昊,李新军,等.紫外光吸收剂UV531对SBS改性沥青性能的影响[J].武汉理工大学学报,2015,37(12):53-58.
[47]冯振刚,陈冲,栗培龙,等.紫外光吸收剂改性沥青的流变与老化性能[J].公路,2016,61(1):206-210.
[48]徐松.LDHs/抗氧剂/弹性体改性沥青的制备与性能研究[D].武汉:武汉理工大学,2014.
[49]高丽,徐松,李玉环,等.LDHs/紫外吸收剂复合改性对沥青性能的影响研究[J].武汉理工大学学报,2015,37(1):45-50.
[50]刘武.层状纳米材料/聚合物复合改性沥青的制备与性能[D].广州:华南理工大学,2015.
[51]姚婷婷.紫外吸收剂/LDHs改性沥青的制备与性能研究[D].武汉:武汉理工大学,2014.
[52]Xu Song,Yu Jianying,Sun Yubin,et al.Synthesis and characterization of organic intercalated layered double hydroxides and their application in bitumen modification[J].Materials Chemistry and Physics,2015,(152):54-61.
[53]李凯涛,林彦军.插层结构紫外阻隔材料及其在沥青中的应用进展[J].石油化工,2016,45(11):1300-1309.
[54]Wu Hong,Li Lian,Yu Jianying,et al.Effect of layered double hydroxides on ultraviolet aging properties of different bitumens[J].Construction and Building Materials,2016,(111):565-570.
[55]Xu Song,Li Lian,Yu Jianying,et al.Investigation of the ultraviolet aging resistance of organic layered double hydroxides modified bitumen[J].Construction and Building Materials,2015,(96):127-134.
[56]Sun Yihan,Wu Shaopeng,Liu Quantao,et al.Promoting the dispersion of LDHs powder in bitumen with pre-dispersion and microwave heating[J].Construction and Building Materials,2015,(93):416-426.
[57]Xu Song,Yu Jianying,Wu Weifei,et al Synthesis and characterization of layered double hydroxides intercalated by UV absorbents and their application in improving UV aging resistance of bitumen[J].Applied Clay Science,2015,(114):112-119.
[58]Wu Shaopeng,Han Jun,Pang Ling,et al.Rheological properties for aged bitumen containing ultraviolate light resistant materials[J].Construction and Building Materials,2012,(33):133-138.
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |