钢桥面铺装用环氧沥青相容性研究进展

doi:10.11896/j.issn.1005-023X.2018.09.019

《材料导报》期刊社

2018, Vol. 32

Issue (9): 1534-1540 https://doi.org/10.11896/j.issn.1005-023X.2018.09.019

材料综述

钢桥面铺装用环氧沥青相容性研究进展

李款,潘友强,张辉,陈李峰,张健

江苏中路工程技术研究院有限公司,南京 211806

Research Progress of Compatibility of Epoxy Asphalt for Steel Deck Pavement

LI Kuan, PAN Youqiang, ZHANG Hui, CHEN Lifeng, ZHANG Jian

Jiangsu SinoRoad Engineering Technology Research Institute Co., Ltd., Nanjing 211806

摘要
参考文献
相关文章
推荐阅读
Metrics

下载:

全文 ( PDF ) ( 1442KB )
输出: BibTeX | EndNote (RIS)

摘要环氧沥青是一类具有优异高温、低温及耐疲劳性能的正交异性钢桥面铺装材料。由于石油沥青在溶解度参数、介电常数、密度等方面均与环氧树脂有较大差异,因此解决石油沥青与环氧树脂间的相容性问题是实现高性能钢桥面铺装用环氧沥青国产化制备的前提。本文从对沥青进行顺酐化改性、选择与沥青相容性好的固化剂以及添加增容剂三个方面综述了近年来环氧沥青相容性的研究现状,最后指出了环氧沥青钢桥面铺装中存在的问题并进一步明确了下一阶段应在耐疲劳性、耐候性以及施工便易性等方面提升环氧沥青的综合性能。

	服务
	把本文推荐给朋友
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章
	李款
	潘友强
	张辉
	陈李峰
	张健

关键词: 环氧沥青钢桥面铺装相容性增容剂

Abstract: Epoxy asphalt is a kind of orthotropic steel bridge deck pavement materials with an excellent balance among high temperature performance, low temperature performance and fatigue performance. Due to the disparities between epoxy resin and petroleum asphalt in solubility parameters, dielectric constant and density, the improvement of compatibility between them is the precondition for the development and mass production of high performance steel bridge deck pavement materials. We herein summarize the progress in the compatibility research of epoxy asphalt from the perspectives of three feasible routes to compatiblizing epoxy asphalt, i.e. maleic anhydride modification, selecting highly compatible curing agent and adding compatibilizer. The paper also discusses the unresolved problems with a suggestion of focusing on promoting the fatigue resistance, weatherability and construction convenience in the next stage.

Key words: epoxy asphalt steel deck pavement compatibility compatibilizer

出版日期: 2018-05-10 发布日期: 2018-07-06

ZTFLH:

TQ323.5

基金资助: 江苏省交通运输科技与成果转化项目(2014Y02)

作者简介: 李款:男,1990年生,硕士,助理工程师,研究方向为钢桥面铺装材料 E-mail:likuan901228@163.com

引用本文:

李款,潘友强,张辉,陈李峰,张健. 钢桥面铺装用环氧沥青相容性研究进展[J]. 《材料导报》期刊社, 2018, 32(9): 1534-1540.
LI Kuan, PAN Youqiang, ZHANG Hui, CHEN Lifeng, ZHANG Jian. Research Progress of Compatibility of Epoxy Asphalt for Steel Deck Pavement. Materials Reports, 2018, 32(9): 1534-1540.

链接本文:

http://www.mater-rep.com/CN/10.11896/j.issn.1005-023X.2018.09.019 或 http://www.mater-rep.com/CN/Y2018/V32/I9/1534

1 Lv Weimin, Guo Zhongyin. Compouding of the high strength asphalt concrete and its properties[J].China Journal of Highway and Transport,1996,9(1):8(in Chinese).
吕伟民,郭忠印.高强沥青混凝土的配制及其特性[J].中国公路学报,1996,9(1):8.
2 Lv Weimin. Present and development of asphalt concrete for steel deck pavement [J].Journal of China & Foreign Highway,2002,22(1):7(in Chinese).
吕伟民.钢桥桥面沥青铺装的现状与发展[J].中外公路,2002,22(1):7.
3 Huang Wei, Qian Zhendong, Cheng Gang. Application of epoxy asphalt concrete to pavement of long-span steel bridge deck[J].Journal of Southeast University (Natural Science Edition),2002,32(5):783(in Chinese).
黄卫,钱振东,程刚.环氧沥青混凝土在大跨径钢桥面铺装中的应用[J].东南大学学报(自然科学版),2002,32(5):783.
4 Huang Wei, Liu Zhenqing. Design of deck pavement for long-span steel bridges[J].China Civil Engineering Journal,2005,38(1):51(in Chinese).
黄卫,刘振清.大跨径钢桥面铺装设计理论与方法研究[J].土木工程学报,2005,38(1):51.
5 Jiang Ling. Applied research and development of epoxy asphalt[J].New Chemical Materials,2010,38(9):34(in Chinese).
蒋玲.环氧沥青混合料应用研究现状与发展趋势[J].化工新型材料,2010,38(9):34.
6 Liu Song, Zou Yunhua, Wen Jun, et al. The research trends of the preparation of epoxy bitumen used for road and bridge deck[J].Petroleum Asphalt,2009,23(6):1(in Chinese).
刘松,邹云华,文俊,等.桥面铺装用环氧沥青制备技术的现状与展望[J].石油沥青,2009,23(6):1.
7 Huang Kun, Xia Jianling, Li Mei, et al. Advance in preparation and modification methods of thermosetting epoxy asphalt materials[J].Thermosetting Resin,2009,24(6):50(in Chinese).
黄坤,夏建陵,李梅,等.热固性环氧沥青材料的制备及改性方法研究进展[J].热固性树脂,2009,24(6):50.
8 Yan Yong, Guo Dajin, Feng Jiliang, et al. Research status and prospect of epoxy asphalt for steel box girder bridge pavement[J].Journal of Highway and Transportation Research and Development,2016,33(9):69(in Chinese).
晏永,郭大进,封基良,等.钢桥铺装用环氧沥青的研究现状及展望[J].公路交通科技,2016,33(9):69.
9 Herrington P R, Wu Y, Forbes M C. Rheological modification of bitumen with maleic anhydride and dicarboxylic acids[J].Fuel,1999,78(1):101.
10 Kang Yang. Preparation and characterization of high performance epoxy asphalt material[D].Nanjing:Southeast University,2006(in Chinese).
亢阳.高性能环氧树脂改性沥青材料的制备与性能表征[D].南京:东南大学,2006.
11 Kang Yang, Chen Zhiming, Min Zhaohui, et al. Application of ma-leation in epoxy asphalt [J].Journal of Southeast University (Natural Science Edition),2006,36(2):308(in Chinese).
亢阳,陈志明,闵召辉,等.顺酐化在环氧沥青中的应用[J].东南大学学报(自然科学版),2006,36(2):308.
12 Wang Fei, Kang Yang, Chen Zhiming, et al. Optimization of preparation technology of maleic anhydride modified asphalt by orthogonal test[J].Chemical Industry Times,2010,24(4):1(in Chinese).
王飞,亢阳,陈志明,等.正交设计法优选沥青顺酐化制备工艺[J].化工时刊,2010,24(4):1.
13 Jia Hui, Chen Zhiming, Kang Yang, et al. Green preparation techniques of high performance epoxy asphalt[J].Journal of Southeast University (Natural Science Edition),2008,38(3):496(in Chinese).
贾辉,陈志明,亢阳,等.高性能环氧沥青材料的绿色制备技术[J].东南大学学报(自然科学版),2008,38(3):496.
14 Lu Xuemin, Zhou Wei, Zhao Hui, et al. Preparation and application of asphalt grafted MAH compatibilizer[J].Chinese Journal of Colloid & Polymer,2011,29(4):168(in Chinese).
陆学敏,周威,赵辉,等.沥青接枝马来酸酐相容剂的制备及应用研究[J].胶体与聚合物,2011,29(4):168.
15 Ma Yuran. Preparation and performance of epoxy asphalt materials used in steel bridge[D].Beijing:Beijing University of Chemical Technology,2013(in Chinese).
马玉然.钢箱梁桥用环氧沥青的制备与性能研究[D].北京:北京化工大学,2013.
16 黄卫,陈志明,闵召辉.高速公路及道桥用环氧沥青材料及其制备方法:中国,200310106597.X[P].2004-11-17.
17 王治流,陈正年,谢鸿峰.高性能环氧沥青路面材料及其制备方法和应用:中国,200710019324.X[P].2009-12-02.
18 Pan Lei, Wang Yuting, Wang Chengshuang, et al. Characterization of thermosetting epoxy modified asphalt adhesives[J].Termosetting Resin,2011,26(4):33(in Chinese).
潘磊,王玉婷,王成双,等.热固性环氧树脂改性沥青粘结剂的性能研究[J].热固性树脂,2011,26(4):33.
19 Zhou Wei, Zhao Hui, Wen Jun, et al. Study on effects of flexibel curing agent on the structure and performance of epoxy-asphalt[J].Journal of Wuhan University of Technology,2011,33(7):28(in Chinese).
周威,赵辉,文俊,等.柔性固化剂对环氧沥青结构和性能影响的研究[J].武汉理工大学学报,2011,33(7):28.
20 Zhou Wei, Zhao Hui, Wen Jun, et al. Effects of compound curing agent on structure and properties of epoxy-asphalt[J].Journal of Chongqing Jiaotong University (Natural Science),2013,32(4):601(in Chinese).
周威,赵辉,文俊,等.复配固化剂对环氧沥青结构和性能的影响[J].重庆交通大学学报(自然科学版),2013,32(4):601.
21 Zhou Wei, Wen Jun, Cai Fangchang, et al. Effects of curing agents on the curing reaction kinetics of epoxy-asphalt[J].Journal of Hubei University (Natural Science),2016(2):97(in Chinese).
周威,文俊,蔡芳昌,等.固化剂对环氧沥青固化反应动力学的影响研究[J].湖北大学学报(自然科学版),2016(2):97.
22 Zhou Wei, Jiang Tao, Zhao Hui, et al. Effects of curing agent on the mechanical properties and structure of epoxy-asphalt[J].Journal of Hubei University (Natural Science),2012,34(4):496(in Chinese).
周威,蒋涛,赵辉,等.固化剂对环氧沥青力学性能和相态结构的影响研究[J].湖北大学学报(自然科学版),2012,34(4):496.
23 Hijikata K, Sakaguchi K. Epoxy resin-bitumen material composition:US,4360608[P].1982-11-23.
24 Okada S. Modified asphalt-epoxy resin composition: US, 4499215[P].1985-02-12.
25 黄坤,夏建陵,王定选.热固性环氧沥青材料,制备方法及其专用增容:中国,200610096835.7[P].2007-04-25.
26 Bradley T F, Sommer H J. Compositions containing epoxy esters and bituminous materials:US,3015635[P].1962-01-06.
27 Huang Kun, Xia Jianling, Ding Haiyang, et al. Synthesis of compa-tibilizers in the epoxy asphalt blends from sucrose polyether polyol[J].Polymer Materials Science and Engineering,2010,26(11):16(in Chinese).
黄坤,夏建陵,丁海阳,等.蔗糖聚醚多元醇合成环氧沥青增容剂[J].高分子材料科学与工程,2010,26(11):16.
28 Zhou Wei, Zhao Hui, Wen Jun, et al. Preparation and application of a high performance epoxy asphalt compatibilizer [J]. Journal of Hubei University (Natural Science),2013,34(1):81(in Chinese).
周威,赵辉,文俊,等.一种高性能环氧沥青增容剂的制备及应用研究[J].湖北大学学报(自然科学版),2013,34(1):81.
29 Lei Zhenyue, Zhou Wei, Zhao Hui, et al. The effect of an active compatibilizer on epoxy-asphalt system [J]. Chinese Journal of Colloid & Polymer,2011,29(2):84(in Chinese).
雷振跃,周威,赵辉,等.活性增容剂对环氧沥青性能影响的研究[J].胶体与聚合物,2011,29(2):84.
30 Chen Dong. Preparation and study of castor oil modified epoxy asphalt[D].Wuhan: Wuhan Institute of Technology,2013(in Chinese).
陈栋.蓖麻油改性环氧沥青的制备及研究[D].武汉:武汉工程大学,2013.
31 Wang Lijie, Wang Yuexin, Zhang Qian. Synthesis and application of thermosetting epoxy asphalt compatibilizer[J].Thermosetting Re-sin,2015,30(1):52(in Chinese).
王丽杰,王月欣,张倩.热固性环氧沥青增容剂的合成及应用研究[J].热固性树脂,2015,30(1):52.
32 周威,蒋涛,文俊.一种环氧沥青增容剂的制备方法及其应用:中国,201510234752.9[P].2017-04-12.
33 Zhang Zhengqi, Zhang Ke, Li Zhihong, et al. Technique research on flexibility and toughness modification for epoxy asphalt concrete [J]. Journal of Chang’ an University (Natural Science Edition),2015,35(1):1(in Chinese).
张争奇,张苛,李志宏,等.环氧沥青混凝土增柔增韧改性技术[J].长安大学学报:自然科学版,2015,35(1):1.
34 Wang Lin, Huang Bingshi, Yan Kelin, et al. Experimental and research on the performance of fiber reinforced epoxy asphalt concrete[J].Journal of China & Foreign Highway,2010,30(5):317(in Chinese).
汪林,黄冰释,严克林,等.掺纤维环氧沥青混合料性能试验研究[J].中外公路,2010,30(5):317.
35 Qian Zhendong, Liu Changbo, Tang Zongxin, et al. Effect of basalt fiber chopped strand on performance of epoxy asphalt and its mixture[J].Journal of Highway and Transportation Research and Development,2015,32(6):1(in Chinese).
钱振东,刘长波,唐宗鑫,等.短切玄武岩纤维对环氧沥青及其混合料性能的影响[J].公路交通科技,2015,32(6):1.
36 Han Shufeng. Research on flexibility modification of epoxy asphalt concrete for steel deck pavement[J].Highway,2013(7):27(in Chinese).
韩树峰.环氧沥青混凝土钢桥面铺装层增柔改性技术研究[J].公路,2013(7):27.
37 Xu P J, Cong P L, Ye H, et al. Modification of epoxy asphalt by hyperbranched polyester[J].Advanced Materials Research,2013,716:379.
38 Xu P, Cong P, Li D, et al. Toughness modification of hyperbranched polyester on epoxy asphalt[J].Construction and Building Materials,2016,122:473.
39 Zhou Wei, Zhao Hui, Wen Jun, et al. Water damage mechanism of epoxy-asphalt concrete[J].Journal of Chongqing Jiaotong University (Natural Science),2015,34(1):54(in Chinese).
周威,赵辉,文俊,等.环氧沥青混凝土的水损坏机理研究[J].重庆交通大学学报(自然科学版),2015,34(1):54.
40 Zhou Wei, Wen Jun, Cai Fangchang, et al. Study on the aging mechanism of epoxy-asphalt under simulated natural conditions[J].Chinese Journal of Colloid & Polymer,2016(3):122(in Chinese).
周威,文俊,蔡芳昌,等.环氧沥青在模拟自然条件下的老化机理研究[J].胶体与聚合物,2016(3):122.

[1]	付晓刚, 张金权, 秦博, 马浩然, 龙斌. 氢化锆与高温钠的相容性研究[J]. 材料导报, 2019, 33(11): 1801-1804.
[2]	阮世超, 罗丹丹, 郝亚, 白雪, 陈岑. 氧化铱/聚多巴胺/层粘连蛋白仿生涂层的制备[J]. 材料导报, 2018, 32(24): 4351-4356.
[3]	钟红荣, 张岩, 包红, 方艳, 吴婷芳, 朱勇, 张小宁, 徐水. 丝素/明胶/壳聚糖支架材料的构建及表征[J]. 材料导报, 2018, 32(22): 3954-3960.
[4]	桑练勇, 胡志德, 晏华, 代军, 张寒松. 可降解材料聚碳酸亚丙酯和聚乳酸的溶度参数与相容性[J]. 材料导报, 2018, 32(22): 3948-3953.
[5]	代晓军, 杨西荣, 王昌, 徐鹏, 赵曦, 于振涛. 生物医用可降解锌基合金的研究进展[J]. 材料导报, 2018, 32(21): 3754-3759.
[6]	洪雅真, 杨丁柱. 聚乳酸纳米纤维支架的生物相容性及促细胞成软骨分化[J]. 材料导报, 2018, 32(18): 3239-3243.
[7]	王朝辉, 傅一, 陈谦, 陈宝, 周骊巍. 环氧沥青混凝土桥面铺装材料研究与应用进展[J]. 材料导报, 2018, 32(17): 2992-3009.
[8]	姜涛, 王瑞彬, 霍枫. 用于体外循环装置的材料涂层技术综述与展望[J]. 《材料导报》期刊社, 2018, 32(13): 2304-2310.
[9]	左迎峰, 吴义强, 顾继友, 佘佳荣, 郭鑫, 江萍. MAH改性方法对淀粉/聚乳酸界面相容性的影响^*[J]. 《材料导报》期刊社, 2017, 31(16): 41-45.
[10]	詹世平, 闫思圻, 赵启成, 王卫京, 李鸣明. 石墨烯基材料的生物医用性能及其应用^*[J]. 《材料导报》期刊社, 2017, 31(13): 25-32.
[11]	李志坤, 彭家惠, 杨再富. 矿物掺合料对聚羧酸减水剂与水泥相容性的影响^*[J]. 《材料导报》期刊社, 2017, 31(12): 115-120.

[1]	Bingwei LUO,Dabo LIU,Fei LUO,Ye TIAN,Dongsheng CHEN,Haitao ZHOU. Research on the Two Typical Infrared Detection Materials Serving at Low Temperatures: a Review[J]. Materials Reports, 2018, 32(3): 398 -404 .
[2]	Huimin PAN,Jun FU,Qingxin ZHAO. Sulfate Attack Resistance of Concrete Subjected to Disturbance in Hardening Stage[J]. Materials Reports, 2018, 32(2): 282 -287 .
[3]	Siyuan ZHOU,Jianfeng JIN,Lu WANG,Jingyi CAO,Peijun YANG. Multiscale Simulation of Geometric Effect on Onset Plasticity of Nano-scale Asperities[J]. Materials Reports, 2018, 32(2): 316 -321 .
[4]	Xu LI,Ziru WANG,Li YANG,Zhendong ZHANG,Youting ZHANG,Yifan DU. Synthesis and Performance of Magnetic Oil Absorption Material with Rice Chaff Support[J]. Materials Reports, 2018, 32(2): 219 -222 .
[5]	Ninghui LIANG,Peng YANG,Xinrong LIU,Yang ZHONG,Zheqi GUO. A Study on Dynamic Compressive Mechanical Properties of Multi-size Polypropylene Fiber Concrete Under High Strain Rate[J]. Materials Reports, 2018, 32(2): 288 -294 .
[6]	XU Zhichao, FENG Zhongxue, SHI Qingnan, YANG Yingxiang, WANG Xiaoqi, QI Huarong. Microstructure of the LPSO Phase in Mg_98.5Zn_0.5Y₁ Alloy Prepared by Directional Solidification and Its Effect on Electromagnetic Shielding Performance[J]. Materials Reports, 2018, 32(6): 865 -869 .
[7]	ZHOU Rui, LI Lulu, XIE Dong, ZHANG Jianguo, WU Mengli. A Determining Method of Constitutive Parameters for Metal Powder Compaction Based on Modified Drucker-Prager Cap Model[J]. Materials Reports, 2018, 32(6): 1020 -1025 .
[8]	WANG Tong, BAO Yan. Advances on Functional Polyacrylate/Inorganic Nanocomposite Latex for Leather Finishing[J]. Materials Reports, 2017, 31(1): 64 -71 .
[9]	HUANG Dajian, MA Zonghong, MA Chenyang, WANG Xinwei. Preparation and Properties of Gelatin/Chitosan Composite Films Enhanced by Chitin Nanofiber[J]. Materials Reports, 2017, 31(8): 21 -24 .
[10]	YUAN Xinjian, LI Ci, WANG Haodong, LIANG Xuebo, ZENG Dingding, XIE Chaojie. Effects of Micro-alloying of Chromium and Vanadium on Microstructure and Mechanical Properties of High Carbon Steel[J]. Materials Reports, 2017, 31(8): 76 -81 .

Viewed

Full text

Abstract

Cited

Shared

Discussed