沥青混合料中集料迁移的表征方法与评价指标综述

doi:10.11896/cldb.22100126

材料导报

2024, Vol. 38

Issue (11): 22100126-14 https://doi.org/10.11896/cldb.22100126

无机非金属及其复合材料

沥青混合料中集料迁移的表征方法与评价指标综述

龚芳媛^1,2,*, 拜佳威^1,3, 陈祎⁴, 程雪佼¹, 王书岳¹, 邓锐¹

1 河北工业大学土木与交通学院,天津 300401
2 天津市交通工程绿色材料技术工程中心,天津 300401
3 河南省交通规划设计研究院股份有限公司,郑州 451464
4 浙江交通职业技术学院路桥学院,杭州 311112

Review on Characterization Methods and Evaluation Indexes of Aggregate Migration in Asphalt Mixtures

GONG Fangyuan^1,2,*, BAI Jiawei^1,3, CHEN Yi⁴, CHENG Xuejiao¹, WANG Shuyue¹, DENG Rui¹

1 School of Civil and Transportation Engineering, Hebei University of Technology, Tianjin 300401, China
2 Traffic Engineering Green Material Technology Engineering Center, Tianjin 300401, China
3 Henan Communications Planning & Design Institute Co., Ltd., Zhengzhou 451464, China
4 Road and Bridge School, Zhejiang Institute of Communications, Hangzhou 311112, China

摘要
参考文献
相关文章
推荐阅读
Metrics

下载:

全文 ( PDF ) ( 39522KB )
输出: BibTeX | EndNote (RIS)

摘要集料作为沥青混合料的主要组成部分,通过表征其在混合料中的迁移特性来量化其形态特征和粒径对沥青混合料性能的影响,对研究混合料细观结构变化及预估路面变形类病害有重要意义。目前,表征不同形态特征和粒径集料迁移特性方法的系统性研究仍有待完善。为评述不同集料迁移特性的表征方法与评价指标,本文对表征集料形态特征及粒径分布的传统试验、图像、数值仿真方法进行总结;从数字图像处理、传感器、离散元方法等角度,对现有追踪不同集料迁移及分布特征的光学扫描设备、算法、传感器、软件种类及适用范围等进行对比;通过分析可量化集料迁移特性的空间位移、空间旋转角、欧拉角、加速度、位移增量等17种指标,对混合料中不同集料颗粒运动规律的评价方法进行研究。最后,基于现有表征和评价不同集料迁移特性方法和指标的不足,对未来研究沥青混合料细观结构的方法和评价指标进行展望。

	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
	龚芳媛
	拜佳威
	陈祎
	程雪佼
	王书岳
	邓锐

关键词: 沥青混合料集料形态迁移特性细观结构表征方法评价指标

Abstract: As the primary component of asphalt mixtures, the influence of aggregates morphology and particle sizes on the asphalt mixture performance can be quantified by characterizing the migration of particles in the mixture. Study on the migration of different aggregates in the mixture is significant for analysis meso-structural of mixture changes as well as predicting the deformation distresses of pavement. Presently, improvements are still required when it comes to the systematic research on the methods of characterizing aggregates migration with different morphology and sizes. In order to review the research methods and evaluation indexes of different aggregates migration conveniently, the traditional test, image and numerical simulation methods that characterize the morphology and particle sizes of aggregates are summarized in this paper. From the aspects of digital image processing, sensors and discrete element methods, the applicable scope of existing different test equipment and software algorithm to track aggregates migration and distribution characteristics are compared. In order to further explore the movement law of aggregate particles in the mixture, seventeen indexes combined with evaluation methods are used to quantify the migration characteristics of aggregates in the asphalt mixture tests, such as spatial displacement, spatial rotation angle, and others. Finally, the future research methods and evaluation indexes of meso-structure of asphalt mixtures are prospected, based on the disadvantages of the existing methods and indexes to characterize and evaluate the migration of different aggregates.

Key words: asphalt mixture aggregate morphology migration characteristic meso-structure characterization method evaluation index

发布日期: 2024-06-25

ZTFLH:

U416

基金资助: 国家自然科学基金(52008154;51978074); 河北省自然科学基金(E2021202074)

通讯作者: *龚芳媛,河北工业大学副教授、博士研究生导师,元光学者。2019年6月于长安大学获得工学博士学位。主要研究方向为路面病害智能检测与修复、道路材料细观结构评价与分析、可持续性道路材料开发与制备等。近年来,主持国家、省部级自然科学基金项目3项,在国内外学术期刊发表论文50余篇,其中SCI检索近30篇。fgong1@mtu.edu

引用本文:

龚芳媛, 拜佳威, 陈祎, 程雪佼, 王书岳, 邓锐. 沥青混合料中集料迁移的表征方法与评价指标综述[J]. 材料导报, 2024, 38(11): 22100126-14.
GONG Fangyuan, BAI Jiawei, CHEN Yi, CHENG Xuejiao, WANG Shuyue, DENG Rui. Review on Characterization Methods and Evaluation Indexes of Aggregate Migration in Asphalt Mixtures. Materials Reports, 2024, 38(11): 22100126-14.

链接本文:

http://www.mater-rep.com/CN/10.11896/cldb.22100126 或 http://www.mater-rep.com/CN/Y2024/V38/I11/22100126

1 Castillo D, Caro S, Darabi M, et al. Road Materials and Pavement Design, 2018, 19(4), 972.
2 Liu P, Hu J, Wang D, et al. Construction and Building Materials, 2017, 133, 196.
3 Research Institute of Highway Ministry of Transport. Technical specifications for construction of highway asphalt pavements: JTG F40-2004. China Communication Press, China, 2004 (in Chinese).
交通部公路科学研究所. 公路沥青路面施工技术规范:JTG F40-2004, 人民交通出版社, 2004.
4 Wang Y Z. Study on the influence of microstructure characteristics of coarse aggregate on the performance of asphalt mixture. Ph. D. Thesis, Chang'an University, China, 2012 (in Chinese).
王彦喆. 粗集料细观结构特征对沥青混合料性能的影响研究. 博士学位论文, 长安大学, 2012.
5 Research Institute of Highway Ministry of Transport. Test Methods of Aggregate for Highway Engineering: JTG E42-2005. China Communication Press, China, 2004 (in Chinese).
交通部公路科学研究所. 公路工程集料试验规程 :JTG E42-2005, 2005, 人民交通出版社.
6 Wang H N, Hao P W, Pang L G, et al. Journal of South China University of Technology( Natural Science Edition), 2007, 35(11), 54 (in Chinese).
汪海年, 郝培文, 庞立果, 等. 华南理工大学学报( 自然科学版), 2007, 35(11), 54.
7 Gong F Y, Zhou X D, You Z P, et al. Construction and Building Materials, 2018, 189, 338.
8 Gong F Y, Liu Y, Zhou X D, et al. Construction and Building Materials, 2018, 182, 573.
9 Li Z, Xv W, Wang Z H, et al. China Civil Engineering Journal, 2003, 36(12), 68 (in Chinese).
李智, 徐伟, 王绍怀, 等. 土木工程学报, 2003, 36(12), 68.
10 Alistair E, Gordon D, Andrew C. In: TRB 2004 Annual Meeting CD-ROM. United States of America, 2004, pp.1.
11 Chen J S, Wong S Y, Lin K Y. Materials and Structures, 2005, 38, 395.
12 Peng Y, Sun L J, Dong R K. Journal of Tongji University, 2005, 33(2), 166 (in Chinese).
彭勇, 孙立军, 董瑞琨. 同济大学学报, 2005, 33(2), 166.
13 Chen H, Ying H, Zhang J. Highway Engineering, 2007, 32(6), 174 (in Chinese).
陈华, 英红, 张建. 公路工程, 2007, 32(6), 174.
14 Sun Z Y, Yao Q L, Sha A M, et al. Computer Applications and Software, 2007, 24(3), 156 (in Chinese).
孙朝云, 姚秋玲, 沙爱民, 等. 计算机应用与软件, 2007, 24(3), 156.
15 Li Y F. Study on motion mechanism and uniformity of pavement materials based on particle material properties. Master's Thesis, Chang'an University, China, 2009 (in Chinese).
李亚非. 基于颗粒物质特性的路面材料运动机制与均匀性研究. 硕士学位论文, 长安大学, 2009.
16 Wu W L, Li Z, Zhang X N. Journal of Jilin University (Engineering and Technology Edition), 2009, 39(4), 921 (in Chinese).
吴文亮, 李智, 张肖宁. 吉林大学学报(工学版), 2009, 39(4), 921.
17 Wu W L, Zhang X N, Li Z. Journal of South China University of Technology (Natural Science Edition), 2009, 37(11), 27 (in Chinese).
吴文亮, 张肖宁, 李智. 华南理工大学学报(自然科学版), 2009, 37(11), 27.
18 Fu X R, Wang H N, Hao P W. Journal of Wuhan University of Technology (Transportation Science & Engineering), 2010, 34(2), 289 (in Chinese).
傅香如, 汪海年, 郝培文. 武汉理工大学学报(交通科学与工程版), 2010, 34(2), 289.
19 Sha A M, Li Y F, Qin W. Journal of Chang'an University(Natural Science Edition), 2011, 31(6), 1 (in Chinese).
沙爱民, 李亚非, 秦雯. 长安大学学报(自然学科版), 2011, 31(6), 1.
20 Airey G D, Collop A C. International Journal of Pavement Engineering, 2014, 17(1), 50.
21 Li J, Wan C, Cai X, Journal of Wuhan University of Technology (Transportation Science & Engineering), 2015, 39(3), 591 (in Chinese).
李佳, 万成, 蔡旭. 武汉理工大学学报(交通科学与工程版), 2015, 39(3), 591.
22 Li Q, Yang H, Ma X, et al. Road Materials and Pavement Design, 2016, 18(5), 1135.
23 Xie J, Yuan C. China Civil Engineering Journal, 2016, 49(9), 123 (in Chinese).
谢军, 袁畅. 土木工程学报, 2016, 49(9), 123.
24 Jiang J, Ni F, Dong Q, et al. Construction and Building Materials, 2019, 209, 66.
25 Li J G, Li P L, Su J F, et al. International Journal of Pavement Engineering, 2019, 1029-8436, 1.
26 Li P L, Su J F, Gao P, et al. Construction and Building Materials, 2019, 197, 42.
27 Huang J, Pei J, Li Y, et al. Construction and Building Materials, 2020, 243, 1.
28 Shi L, Wang D, Jin C, et al. Measurement, 2020, 163, 1.
29 Ghafoori Roozbahany E. Materials and Structures, 2015, 49(9), 3547.
30 Xv K, Zhang X N, Wang D Y. Highway, 2005, 11(11), 151 (in Chinese).
徐科, 张肖宁, 王端宜. 公路, 2005, 11(11), 151.
31 Zhang C, Zhou J Y, Gao J F. Science Technology and Engineering, 2019, 19(7), 239 (in Chinese).
张琛, 周俊屹, 高俊锋, 等. 科学技术与工程, 2019, 19(7), 239.
32 Wang X, Shen S H, Huang H, et al. Construction and Building Materials, 2018, 175, 206.
33 李洛克, 谭忆秋, 保亮, 等. 中国专利, 201820668668 7, 2018.
34 李洛克, 谭忆秋, 保亮, 等. 中国专利, 201810425887 7, 2018.
35 Wang X, Shen S H, Huang H, et al. Construction and Building Materials, 2019, 218, 323.
36 Dan H C, Dong Y, Liu X, et al. Construction and Building Materials, 2020, 247, 1.
37 Dan H C, Dong Y, Zhao L H, et al. Construction and Building Materials, 2020, 262, 1.
38 Zhang C, Zhang Z W. Sustainability, 2021, 13(6), 1.
39 Chen J S, Huang B S, Shu X, et al. Journal of Materials in Civil Engineering, 2015, 27(3), 04014130.
40 Zhang X F, Qian Z D, Zheng D, et al. Journal of Testing and Evaluation, 2020, 48(6), 4304.
41 Suresha S N, ASCE S M, George V, et al. Journal of Materials in Civil Engineering, 2009, 21, 789.
42 Li N, Ma B, Wang H, Zhao J, Wang H, Wang X. Road Materials and Pavement Design, 2019, 21(6), 1675.
43 ABD-ALLA E S M, Moriyoshi A, Partl M N, et al. Journal of the Japan Petroleum Institute, 2006, 49(5), 274.
44 Ma T, Zhang D Y, Zhang Y, et al. Road Materials and Pavement Design, 2016, 19(2), 367.
45 Wang H, Zhou Z H, Huang W L, et al. Construction and Building Materials, 2021, 272, 1.
46 Zhang D Y, Bai T, Huang X M, et al. Journal of Building Materials, 2015, 18(3), 421 (in Chinese).
张德育, 白桃, 黄晓明, 等. 建筑材料学报, 2015, 18(3), 421.
47 Ma T, Zhang D, Zhang Y, et al. Construction and Building Materials, 2016, 111, 153.
48 Buttlar W G, You Z P. Transportation Research Record, 2001, 1757, 111.
49 Chen J, Pan T, Huang X. Journal of Wuhan University of Technology, 2011, 26, 1215.
50 Peng Y, Yang H D, Lu X Y, et al. Journal of Jilin University (Enginee-ring and Technology Edition), 2021, 51(3), 956 (in Chinese).
彭勇, 杨汉铎, 陆学元, 等. 吉林大学学报(工学版), 2021, 51(3), 956.
51 Zhao G F, Yan Z Y. International Journal of Pavement Engineering, 2022, 23(4), 1271.
52 Pei J Z, Chang M F, Chen S F, et al. Journal of Chang'an University (Natural Science Edition), 2010, 30(5), 6 (in Chinese).
裴建中, 常明丰, 陈栓发, 等. 长安大学学报(自然科学版), 2010, 30(5), 6.
53 Chen J, Huang X M. Journal of South China University of Technology (Natural Science Edition), 2012, 40(7), 21 (in Chinese).
陈俊, 黄晓明. 华南理工大学学报(自然科学版), 2012, 40(7), 21.
54 Yang J, Jiao L Y, Wang K L, et al. Journal of Southeast University (English Edition), 2014, 44(5), 1057 (in Chinese).
杨军, 焦丽亚, 王克利, 等. 东南大学学报(自然科学版), 2014, 44(5), 1057.
55 Sefidmazgi N R, Tashman L, Bahia H, et al. Road Materials and Pavement Design, 2012, 13(sup1), 21.
56 Wei J G, Hu J M, Wang Y S. Journal of China and Foreign Highway, 2018, 38(2), 217 (in Chinese).
魏建国, 胡峻铭, 王永胜. 中外公路, 2018, 38(2), 217.
57 Li L H. Road Engineering Materials, China Communication Press, China, 2018 (in Chinese).
李立寒. 道路工程材料, 人民交通出版, 2018.
58 Zhou C, Zhang M, Li Y, et al. Road Materials and Pavement Design, 2017, 20, 399.
59 Wang F, Xiao Y, Cui P D, et al. Materials Reports, 2022, 36(17), 95 (in Chinese).
王凤, 肖月, 崔培德, 等. 材料导报, 2022, 36(17), 95.
60 Zhang D. Research on morphological characteristics of coarse aggregate of asphalt mixture and discrete element simulation of mechanical properties. Ph. D. Thesis, Southeast University, China, 2013 (in Chinese).
张东. 沥青混合料粗集料的形态特征研究和力学性能的离散元模拟. 博士学位论文, 东南大学, 2013.
61 Maerz NH. Journal of Computing in Civil Engineering, 2004, 18(1), 10.
62 Masad E. In: National Research Council NCHRP-IDEA Program Project Final Report NCHRP-IDEA Project 77, Washington, 2003, pp.1.
63 Wang H N, Hao P W, Hu S T. Highway, 2008, 10, 180 (in Chinese).
汪海年, 郝培文, 胡世通. 公路, 2008, 10, 180.
64 Rao C, Tutumluer E, Stefanski J A. Journal of Testin and Standard, 2001, 29(5), 79.
65 Gong F Y, Liu Y, You Z P, et al. Construction and Building Materials, 2021, 273, 121989.
66 Duan Y H, Zhang X N. Journal of Jilin University (Engineering and Technology Edition), 2012, 42(4), 918 (in Chinese).
段跃华, 张肖宁. 吉林大学学报(工学版), 2012, 42(4), 918.
67 Xie J, Yang Y G. Advances in Materials Science and Engineering, 2019, 2019, 1.
68 Duan Y H, Zhang X N, Li Z, et al. China Journal of Highway and Transport, 2011, 24(6), 9 (in Chinese).
段跃华, 张肖宁, 李智, 等. 中国公路学报, 2011, 24(6), 9.
69 Gong F Y, Shun Y, Liu Y, et al. In: 4th Geo-China International Conference: Innovative and Sustainable Solutions in Asphalt Pavements. China, 2016, pp.53.
70 Liu Y, Zhou X D, You Z P, et al. Construction and Building Materials, 2017, 143, 169.
71 Liu Y, Su P F, Li M M, et al. Advances in Civil Engineering, 2020, 2020, 1.
72 Wang X F, Huang Z Y, Liu Z, et al. Journal of Zhejiang University(Engineering Science), 2012, 46(2), 263 (in Chinese).
王新飞, 黄志义, 刘卓, 等. 浙江大学学报(工学版), 2012, 46(2), 263.
73 Li Z, Yu J M, Xv W, et al. Journal of Harbin University of Civil Engineering and Architecture, 2002, 35(6), 120 (in Chinese).
李智, 虞将苗, 徐伟, 等. 哈尔滨建筑大学学报, 2002, 35(6), 120.
74 Hu C C, Wang D Y. Journal of Chang'an University (Natural Science Edition), 2010, 30(6), 24 (in Chinese).
胡尺春, 王端宜. 长安大学学报(自然科学版), 2010, 30(6), 24.
75 Duan Y H. Study on Basic characteristics of asphalt mixture coarse aggregate based on X-ray CT. Ph. D. Thesis, South Chia University of Technology, China, 2011 (in Chinese).
段跃华. 基于X-ray CT的沥青混合料粗集料基础特性研究. 博士学位论文, 2011.
76 Li Z, Liu J H. Journal of Wuhan University of Technology, 2011, 33(6), 50 (in Chinese).
李智, 刘家辉. 武汉理工大学学报, 2011, 33(6), 50.
77 Wang D Y, Li K, Cai X. Journal of South China University of Technology (Natural Science Edition), 2012, 40(11), 121 (in Chinese).
王端宜, 黎侃, 蔡旭. 华南理工大学学报( 自然科学版), 2012, 40(11), 121.
78 Shi L F, Wang D Y, Cai X, et al. China Journal of Highway and Transport, 2014, 27(8), 23 (in Chinese).
石立方, 王端宜, 蔡旭, 等. 中国公路学报, 2014, 27(8), 23.
79 Lu K, Wang J S, Chen Z F, et al. Highway Engineering, 2017, 42(6), 59 (in Chinese).
卢凯, 王劲松, 陈振富, 等. 公路工程, 2017, 42(6), 59.
80 Tashman L, Masad E, D'Angelo J, et al. International Journal of Pavement Engineering, 2010, 3(1), 19.
81 Masad E, Muhunthan B, Shashidhar N, et al. Journal of Computing in Civil Engineering, 1999, 13(2), 88.
82 Coleri E, Harvey J T, Yang K, et al. Construction and Building Materials, 2012, 30, 36.
83 Wang H N, Li L, You Z P. Journal of Wuhan University of Technology, 2012, 34(8), 61 (in Chinese).
汪海年, 李磊, 尤占平. 武汉理工大学学报, 2012, 34(8), 61.
84 Hong L, Gu X L, Lin F, et al. Journal of Materials in Civil Engineering, 2019, 31(10), 04019226.
85 Duan Y H, Zhang X N, Li H J, et al. Journal of Building Materials, 2011, 14(6), 808 (in Chinese).
段跃华, 张肖宁, 李红杰, 等. 建筑材料学报, 2011, 14(6), 808.
86 Yue Z Q, Morin I. Canadian Journal of Civil Engineering, 1996, 23, 480.
87 Yi F, Jin Y, Chai Y, et al. Bulletin of the Chinese Ceramic Society, 2014, 33(7), 1729 (in Chinese).
易富, 金艳, 柴源, 等. 硅酸盐通报, 2014, 33(7), 1729.
88 Tan Y Q, Xing C, Ren J D, et al. China Journal of Highway and Transport, 2017, 30(17), 1 (in Chinese).
谭忆秋, 邢超, 任俊达, 等. 中国公路学报, 2017, 30(17), 1.
89 Li S, Wang X W, Ji X P, et al. Construction and Building Materials, 2020, 260, 1.
90 李凌林, 张振. 中国专利, 111882667A, 2020.
91 Liu S S, Huang H, Qiu T, et al. Transportation Geotechnics, 2016, 9, 110.
92 Liu S S, ASCE S M, Huang H, et al. Journal of Materials in Civil Engineering, 2017, 29(3), D6016001.
93 Liu S S, Qiu T, Qian Y, et al. Computers and Geotechnics, 2019, 110, 184.
94 Cundll P A. France, 1 (II-8), 1971.
95 Liu W D, Gao Y, Huang X M, et al. International Journal of Pavement Engineering, 2018, 21(2), 144.
96 Zhang J, Li X, Ma W, et al. Transactions of Civil Engineering, 2018, 43(1), 81.
97 Wang L B, Frost J D, Lai J S. Journal of Computing in Civil Enginee-ring, 2004, 18, 28.
98 Zhu H. In: 12th ASCE Engineering Mechanics Conference in San Diego, California, 1998.
99 Niu D Y, Xie X W, Niu Y H, et al. China Journal of Highway and Transport, 2020, 33(10), 201 (in Chinese).
牛冬瑜, 谢希望, 牛艳辉, 等. 中国公路学报, 2020, 33(10), 201.
100 Gao J F, Wang H, Yin Bu, et al. Construction and Building Materials, 2018, 183, 472.
101 Li P L, Su J F, Ma S S, et al. International Journal of Pavement Engineering, 2018, 1029, 1.
102 Jiang J, Ni F J, Gao L, et al. Construction and Building Materials, 2017, 136, 426.
103 Shi L F, Wang D Y, Cai X, et al. China Journal of Highway and Transport, 2014, 27(8), 23 (in Chinese).
石立方, 王端宜, 蔡旭, 等. 中国公路学报, 2014, 27(8), 23.
104 Cai X, Wang D Y, Li K, et al. China Journal of Highway and Transport, 2013, 26(6), 38 (in Chinese).
蔡旭, 王端宜, 黎侃, 等. 中国公路学报, 2013, 26(6), 38.
105 Coenen A R, Kutay M E, Sefidmazgi N R, et al. Road Materials and Pavement Design, 2012, 13(3), 433.
106 Curray J R. Journal of Geology 64, 1956, 12, 117.
107 Masad E, Muhunthan B, SHASHIDHAR N, et al. Transportation Research Record 1681, 1999, 13, 1.
108 Zhang L, Wang Z R. Journal of China and Foreign Highway, 2008(3), 168(in Chinese).
张蕾, 王哲人. 中外公路, 2008(3), 168.

[1]	延西利, 郑涛, 蒋双全, 李卫成. 沥青温拌技术分类及温拌效果的试验评价方法[J]. 材料导报, 2024, 38(4): 22080003-8.
[2]	汤文, 旷强, 张宇翔, 吕悦晶. 植物油微胶囊沥青混合料的微观力学性能及自愈合机制[J]. 材料导报, 2024, 38(4): 22090060-7.
[3]	高颖, 陈萌, 王长龙. 改性钢渣-沥青混合料的性能及机理[J]. 材料导报, 2024, 38(2): 22100041-7.
[4]	阳虎, 单丽岩, 李志伟. 基于CT图像的水泥稳定RAP材料细观结构研究[J]. 材料导报, 2024, 38(1): 22050037-6.
[5]	张新强, 唐伯明, 曹雪娟, 杨晓宇, 唐乃膨, 朱洪洲. 道路沥青材料VOCs释放特性与抑制措施研究进展[J]. 材料导报, 2023, 37(6): 21070149-9.
[6]	房辰泽, 郭乃胜, 蒋继望, 冷真, 李辉, 陆国阳, 王昊鹏. 加载次序对沥青混合料疲劳损伤累积的影响[J]. 材料导报, 2023, 37(24): 22080209-6.
[7]	罗蓉, 王伟, 罗晶, 习磊. 多尺度评价相对湿度对沥青-集料黏附性的影响[J]. 材料导报, 2023, 37(2): 21060216-6.
[8]	褚召阳, 郭乃胜, 房辰泽, 谭忆秋, 尤占平. 氯盐环境下沥青与沥青混合料性能及劣化机理研究进展[J]. 材料导报, 2023, 37(15): 21110001-9.
[9]	殷鹏, 潘宝峰, 康泽华, 王宝民. 稻壳灰改性沥青混合料性能研究及路面结构动力响应分析[J]. 材料导报, 2023, 37(14): 21120046-8.
[10]	冯云霞, 罗钰鸿, 牛开民, 郭鹏. 盐及环境耦合作用下沥青和混合料性能劣化规律及机理研究进展[J]. 材料导报, 2023, 37(13): 22050114-10.
[11]	丁滔, 金珊珊, 索智, 季节, 张扬. 嵌锁式沥青稳定碎石配合比设计及性能研究[J]. 材料导报, 2022, 36(Z1): 22030296-5.
[12]	张永军, 罗文波. 重复荷载下玄武岩纤维沥青混合料的永久变形及其分数阶黏弹塑性模型[J]. 材料导报, 2022, 36(9): 21020108-7.
[13]	王威娜, 周圣雄, 秦煜. 室内反射裂缝试验方法研究进展[J]. 材料导报, 2022, 36(5): 20090234-10.
[14]	崔雨萌, 张宇峰. 调湿材料吸放湿性能评价方法综述[J]. 材料导报, 2022, 36(24): 21040201-8.
[15]	纪小平, 孙恩永, 代聪, 周荣征. 铁尾矿沥青混合料的路用性能研究[J]. 材料导报, 2022, 36(21): 21050004-7.

[1]	Lanyan LIU,Jun SONG,Bowen CHENG,Wenchi XUE,Yunbo ZHENG. Research Progress in Preparation of Lignin-based Carbon Fiber[J]. Materials Reports, 2018, 32(3): 405 -411 .
[2]	Haoqi HU,Cheng XU,Lijing YANG,Henghua ZHANG,Zhenlun SONG. Recent Advances in the Research of High-strength and High-conductivity CuCrZr Alloy[J]. Materials Reports, 2018, 32(3): 453 -460 .
[3]	Yanchun ZHAO,Congyu XU,Xiaopeng YUAN,Jing HE,Shengzhong KOU,Chunyan LI,Zizhou YUAN. Research Status of Plasticity and Toughness of Bulk Metallic Glass[J]. Materials Reports, 2018, 32(3): 467 -472 .
[4]	Xinxing ZHOU,Shaopeng WU,Xiao ZHANG,Quantao LIU,Song XU,Shuai WANG. Molecular-scale Design of Asphalt Materials[J]. Materials Reports, 2018, 32(3): 483 -495 .
[5]	Yongtao TAN, Lingbin KONG, Long KANG, Fen RAN. Construction of Nano-Au@PANI Yolk-shell Hollow Structure Electrode Material and Its Electrochemical Performance[J]. Materials Reports, 2018, 32(1): 47 -50 .
[6]	Ping ZHU,Guanghui DENG,Xudong SHAO. Review on Dispersion Methods of Carbon Nanotubes in Cement-based Composites[J]. Materials Reports, 2018, 32(1): 149 -158 .
[7]	Fangyuan DONG,Shansuo ZHENG,Mingchen SONG,Yixin ZHANG,Jie ZHENG,Qing QIN. Research Progress of High Performance ConcreteⅠ:Raw Materials and Mix Proportion Design Method[J]. Materials Reports, 2018, 32(1): 159 -166 .
[8]	Guiqin HOU,Yunkai LI,Xiaoyan WANG. Research Progress of Zinc Ferrite as Photocatalyst[J]. Materials Reports, 2018, 32(1): 51 -57 .
[9]	Jianxiang DING,Zhengming SUN,Peigen ZHANG,Wubian TIAN,Yamei ZHANG. Current Research Status and Outlook of Ag-based Contact Materials[J]. Materials Reports, 2018, 32(1): 58 -66 .
[10]	Jing WANG,Hongke LIU,Pingsheng LIU,Li LI. Advances in Hydrogel Nanocomposites with High Mechanical Strength[J]. Materials Reports, 2018, 32(1): 67 -75 .

Viewed

Full text

Abstract

Cited

Shared

Discussed