A State-of-the-art on Microcapsules for Asphalt Self-healing
HE Liang1,2, HUANG Huduan1, Wim Van den bergh3, Tóth Csaba4, GAO Jie1, Karol Kowalski5, Jan Valentin6
1 National and Local Joint Engineering Laboratory of Traffic Civil Engineering Materials, Chongqing Jiaotong University, Chongqing 400074, China 2 Key Laboratory of Highway Engineering of Ministry of Education in Special Areas, Chang'an University, Xi'an 710061, China 3 Faculty of Applied Engineering, the University of Antwerp, Antwerp G.Z.352, Belgium 4 Faculty of Civil Engineering, Budapest University of Technology and Economics, Budapest H-1521, Hungary 5 Faculty of Civil Engineering, Warsaw University of Technology, Warsaw 00-637, Poland 6 Faculty of Civil Engineering, Czech Technical University in Prague, 166 29 Prague 6, Czech Republic
Abstract: Microcapsule technology has been applied in many fields in the world, including medicine, food and chemical industry, and has broad application prospects. Introducing the microcapsule into the self-healing of the asphalt material can improve the self-healing ability of the asphalt material, self-healing in the initial stage of the crack generation and prolong the service life of the pavement. Compared with traditional crack healing methods, microcapsule self-healing technology has the advantages of energy saving and emission reduction, reducing maintenance cost and preventing micro cracks from expanding to macro cracks. On the other hand,the self-healing microcapsule technology of asphalt is still in the preliminary exploration stage. For the application of micron-sized microcapsules in the self-healing of asphalt materials, the required compressive strength of microcapsules remains unknown, and the theory of microcapsule rupture is immature, and there is no wide consensus on the design of microcapsule preparation process parameters and the eva-luation methods of the improvement of self-healing performance of asphalt mixture containing microcapsules(AMM).Therefore, in addition to studying the influence of the preparation process, the researchers have been trying to select the appropriate preparation process to influence the parameters and the structure and performance of the microcapsules, and have achieved fruitful results. With the continuous maturity of the preparation process and the continuous optimization of the influencing parameters, the microcapsules prepared by the in-situ polymerization method have a compact structure and excellent performance. For the self-healing of AMM, there is no wide consensus on the evaluation methods of the improvement of self-healing performance of AMM.At present, the self-healing effect of AMM is mainly manifested by different indexes, including ductility, complex modulus, tensile strength, specimen load and crack opening displacement value, and fatigue life of asphalt mixture. The road performance of the AMM was also studied.Through diffe-rent evaluation indicators, it has better self-healing effect on asphalt mixture, the incorporation of microcapsules slightly decreases the moisture stability and high temperature stability of AMM, and decreases its low temperature crack resistance greatly to barely above the requirements. A comprehensive review on self-healing microcapsules for asphalt materials is conducted in this research. Specifically, the preparation methods of self-healing microcapsules and the main factors affecting the quality of microcapsules (core-wall ratio, reaction temperature, end point pH value, emulsifying speed and acidizing time) are compared and analyzed. In addition, the structural characterization methods of microcapsules are presented, the evaluation method and improved self-healing performance of AMM are introduced, and the mechanical performance of AMM are elaborated, the feasibility of studying the self-healing behavior of AMM via molecular dynamics is discussed. We have confidence that the microcapsules have a bright future in the development and provide reference for the application and development of micro-scale microcapsules.
作者简介: 何亮,重庆交通大学土木工程学院副教授、博士研究生导师,重庆市巴渝学者青年学者。2006年7月毕业于北京交通大学电子信息工程学院,2013年6月在东南大学交通学院交通运输工程专业取得博士学位,2014—2016年分别在长安大学与英国诺丁汉大学进行博士后研究工作。2016年2月回国后,入选重庆交通大学首批土木新星人才项目,是英国皇家学会牛顿基金获得者,主持政府间国际合作项目3项,国家自然科学基金2项。近年来,在道路工程材料领域发表论文近50篇,包括Construction and Building Materials、《中国公路学报》《交通运输工程学报》《建筑材料学报》等。
引用本文:
何亮, 黄胡端, Wim Van den bergh, Tóth Csaba, 高杰, Karol Kowalski, Jan Valentin. 沥青自修复微胶囊研究进展[J]. 材料导报, 2020, 34(15): 15092-15101.
HE Liang, HUANG Huduan, Wim Van den bergh, Tóth Csaba, GAO Jie, Karol Kowalski, Jan Valentin. A State-of-the-art on Microcapsules for Asphalt Self-healing. Materials Reports, 2020, 34(15): 15092-15101.
Pauli A T. Chemomechanics of damage accumulation and damage-recovery healing in bituminous asphalt binders. Master's Thesis, TU Delft, Netherland, 2014.2 Qiu J. Self-healing of asphalt mixtures, towards a better understanding.Master's Thesis, TU Delft,Netherland, 2012.3 Apeagyei A K, Grenfell J R A, Airey G D.Construction and Building Materials,2014,60, 73.4 Bhairampally R, Lytton R, Little D.Transportation Research Record,2000,1723, 150.5 Wang Y Y, Han S, Liu Q T, et al. Petroleum Asphalt, 2016, 30(4), 63(in Chinese).王英园,韩珊,刘全涛,等.石油沥青,2016,30(4),63.6 Yu D f. Preparation and properties of olive oil (jasmine flavor) microcapsules. Master's Thesis, Beijing Institute of Clothing Technology, China, 2012 (in Chinese).于丹凤.橄榄油(茉莉香精)微胶囊的制备及性能研究. 硕士学位论文,北京服装学院,2012.7 Zhang X L, Guo Y D, Su J F, et al.Construction and Building Materials 2018, 187, 1158.8 Norambuena-Contreras J, Yalcin E, Garcia A, et al. Construction and Building Materials, 2018, 175, 254.9 Su J F, Qiu J, Schlangen E, et al. Construction and Building Materials,2015, 74, 83.10 Bazin P, Saunier J B. International conference on structural design asphalt pavements. Washington D C: TRB,1967, pp. 553.11 Al-Mansoori T, Micaelo R, Artamendi I, et al. Construction and Building Materials, 2017, 155, 1091.12 Brown E N. Fracture and fatigue of a self-healing polymer composite material.Master's Thesis, University of Illinois at Urbana-Champaign Graduate College, USA, 2003.13 Divey S J. Extension of a progressive failure, energy dissipation, compo-site tailoring concept to a healing configuration. Master's Thesis, The University of Texas at Arlington,USA, 2011.14 Vergara-Sanchez J, Silva-Martinez S.Water Science and Technology, 2010,62(1), 77.15 Agzenai Y, Pozuelo J, Sanz J,et al. Nanotechnology, 2015, 9, 43.16 Shirzad S, Marwa M H, Max A, et al.Journal of Materials in Civil Engineering, 2016,11(28), 04016116.17 Zhang X, Xi Z Z, Wang S X, et al. Concrete, 2001, 137(3), 10 (in Chinese).张雄, 习志臻, 王胜先, 等.混凝土.2001, 137(3), 10.18 Kessler M R, White S R.Composites Part A: Applied Science and Manufacturing, 2001, 32, 683.19 García A, Schlangen E, van de Ven M.Key Engineering Materials,2010, 417, 573.20 Wang Y Y, Han S, Liu Q T, et al.Petroleum Asphalt, 2016, 30(5), 35 (in Chinese).王英园,韩珊,刘全涛,等.石油沥青,2016, 30(5), 35.21 Zhu Y, Murali S, Cai W, et al.Advanced Functional Materials, 2010, 22, 3906.22 White S R, Sottos N R, Geubelle P H, et al.Nature, 2001, 409, 794.23 Blaiszik B J, Kramer S L B, Olugebefola S C, et al.Annual Review of Materials Research, 2010, 40, 179.24 He L, Cai Z, Feng C, et al.Journal of Chang'an University (Natural Science Edition), 2018,38(2), 9(in Chinese).何亮,蔡卓,冯畅,等.长安大学学报(自然科学版),2018,38(2),9,.25 Blaiszik B J,Caruso M M,McIlroy D A.Polymer, 2009, 50, 990.26 Al-Mansoori T, Micaelo R, Artamendi I, et al.Construction and Building Materials, 2017, 155, 109127 Pascu O, Garcia-Valls R, Ciamberini M. Polymer International,2010, 57(8), 995.28 Liang Zhiqi.Microcapsule technology and its application, China Light Industry Press,China, 1999(in Chinese).梁治齐.微胶囊技术及其应用,中国轻工业出版社,1999.29 Zagar M, Ahmadinia E, Asli H, et al.Journal of Hazardous Materials,2012, 233, 254.30 Parshuram G Shukla, Siddheshwar B Jagtap, et al. Colloid and Polymer Science,2016, 294, 2039.31 Ren X L, Wang L X, Ren L, et al.Journal of Functional Materials,2005,11(36),1722 (in Chinese).任晓亮,王立新,任丽,等.功能材料,2005,11(36), 1722.32 Wang L X, Ren X L, Ren Li, et al.Journal of Composite Materials,2006, 23(2), 53 (in Chinese).王立新,任晓亮,任丽,等.复合材料学报,2006, 23(2), 53.33 Li R,Zhou T S,Pei J Z. Construction and Building Materials,2015, 99, 143.34 Samadzadeh M, Boura S H, Peikari M, et al.Progress in Organic Coa-tings, 2010, 68(3),159.35 GarciaÁ. Fuel, 2011, 93(1), 264.36 Su J F, Schlangen E.Construction and Building Materials,2015,85, 49.37 White S R, Sottos N R, Geubelle P H, et al.Nature, 2001, 409(6822), 794.38 Su J F, Wang X Y, Dong H.Materials Letters, 2012, 89(24), 1.39 Sun D Q, Hu J, Zhu X.Colloid & Polymer Science, 2015, 293(12), 3505.40 Xiao Y C. Preparation and performance of self-healing materials for road use. Master's Thesis, Chang'an University, China,2014(in Chinese).肖艺成.路用自修复材料的制备及性能研究. 硕士学位论文,长安大学,201441 Wan X. Preparation and characterization of phase change material microcapsules for functional thermal fluids.Master's Thesis, Tianjin Polytechnic University, China, 2007(in Chinese).万贤.应用于功能性热流体的相变材料微胶囊的制备与表征. 硕士学位论文,天津工业大学,200742 Liu X C. Preparation and characterization of microcapsules for self-healing of rubber materials. Master's Thesis, Beijing University of Chemical Technology, China, 2013(in Chinese).刘小辰.用于橡胶材料自修复的微胶囊的制备与表征. 硕士学位论文,北京化工大学,201343 Kessler M R,Sottos N R,White S R.Composites Part A,2003, 34, 743.44 Lv Y, Zhang X M, Abbas S, et al.Journal of Food Engineering, 2012, 111, 225.45 Huang Y I, Cheng Y H, Yu C C, et al.Colloids and Surfaces B: Biointerfaces, 2007,58 (2), 290.46 Fan C J,Zhou X D. Colloids and Surfaces A,2010, 363, 49.47 Sato K,Nakajima T,Anzai J. Journal of Colloid and Interface Science,2012, 397, 123.48 Mao H J, Yan H, Xie J Q, et al.Journal of Functional Materials,2007, Supplement (38), 3172 (in Chinese).毛华军,晏华,谢家庆,等.功能材料,2007,增刊(38), 317249 Wang S B. Preparation of melamine resin microcapsules and their epoxy composites. Master's Thesis, Tianjin University, China, 2010(in Chinese).王升宝.蜜胺树脂微胶囊制备及其环氧复合材料研究. 硕士学位论文,天津大学,201050 Tang X, Zhang L, Han S S.Guangdong Chemical Industry,2016(20), 3 (in Chinese).唐璇,张露,韩莎莎.广东化工,2016(20), 3.51 Wang L X, Su J F, Ren L. Fine Chemicals,2003, 20(12), 705 (in Chinese).王立新,苏峻峰,任丽.精细化工,2003, 20(12), 705.52 Sawada K, Urakawa H. Dyes and Pigments,2005,65,45.53 Qiao R, Zhang X L, Qiu R, et al.Colloids and Surfaces,2008,313,347.54 Salaun F, Devaux E, Bourbigot S. Chemical Engineering Journal,2009,155,457.55 Kevin John Ford. Characterization of self-healing composite materials. Master's Thesis ,West Virginia University,America,2006.56 Sun D Q,Lu T,Li B,et al. Construction and Building Materials,2018, 175, 88.57 He J. Preparation and study of polyurea formaldehyde microcapsules.Master's Thesis, Shaanxi University of Science and Technology, China, 2012(in Chinese).何静.聚脲甲醛微胶囊的制备与研究. 硕士学位论文,陕西科技大学,2012.58 Su J F, Schlangen E.Chemical Engineering Journal,2012,198,289.59 Yan Y,Liu J,Zhang H P.Journal of South China University of Technology,2009, 37(9), 139 (in Chinese).鄢瑛,刘剑,张会平.华南理工大学学报,2009, 37(9), 139.60 Zuo M M,Liu T Q, Han J J,et al.Chemical Engineering Journal,2014,249, 27.61 Sun D Q, Yang W H, Xie Z P, et al. In: Proceedings of National Highway Maintenance New Materials Application Technology Conference (in Chinese). Shenzhen,2015,pp. 190孙大权,杨文欢,谢祖平,等.全国公路养护新材料应用技术大会.深圳,2015,pp.19062 Tabakovic A, Schlangen E.Materials and Environment,2015, 273, 335.63 Su J F, Han S, Wang Y Y, et al.Construction & Building Materials, 2017, 147, 533.64 Hao H Y. Preparation and performance characterization of self-healing microcapsules for composite materials.Master's Thesis, Harbin Institute of Technology, China, 2007(in Chinese).郝焕英.复合材料自修复用微胶囊的制备及性能表征. 硕士学位论文,哈尔滨工业大学,2007.65 Wang L X, Su J F, Ren L.Journal of Polymer Materials Science and Engineering,2005, 21(1), 276 (in Chinese).王立新,苏峻峰,任丽.高分子材料科学与工程,2005, 21(1), 276.66 Sun D Q,Lu T,Zhu X Y, et al.Construction and Building Materials,2018, 175, 88.67 Ferrandiz M, Lopez, A, Franco E, et al. Flavour and Fragrance Journal, 2017, 32(3), 184.68 Liu Q, Zhang J P, Liu W L, et al.Construction and Building Materials,2018, 183, 84.69 Wang X Y, Guo Y D, Su J F, et al. Nanomaterials, 2016, 121, 471.70 Su J F,Wang X Y. Chemical Engineering Journal,2012, 89, 1.71 Su J F, Schlangen E.Powder Technology,2013, 235, 563.72 Yang P, Han S, Su J F, et al.Polymer Composites, 2018, 39,1441.73 Song M Y, Liang R, Deng J J, et al.Construction and Building Materials,2017,147, 1.74 Sun D Q, Pang Q, Zhu X Y, et al.Sustainable Chemistry & Engineering,2017, 5, 9881.75 Su J, Wang Y, Han N.Construction and Building Materials, 2016, 106, 317.76 Su J F, Wang X Y, Han S, et al.Journal of Materials Chemistry A, 2017, 5, 23937. 77 Xue B,Wang H F,Pei J Z,et al. Construction and Building Materials,2017, 135, 641.78 Liu Z.Synthetic Tree Fat and Plastic Materials, 2017, 34(4), 85 (in Chinese).刘哲.交通节能环保,2017, 34(4), 85.79 Chung K, Lee S,Park M, et al.Industrial and Engineering Chemistry, 2015,29, 330.80 Su J F,Qiu J,Schlangen E,et al. Materials and Structures,2015,48, 4067.81 Sun D Q, Li B, Ye F Y, et al.Journal of Cleaner Production,2018,188, 466.82 Al-Mansoori T, Norambuena-Contreras J,Micaelo R, et al.Construction and Building Materials, 2018, 161, 330.83 Bhasin A,Bommavaram R,Greenfield M I,et al.Journal of Materials in Civil Engineering,2011,23(4),485.84 Edward K. Fatigue resistance of hot-mix asphalt concrete mixture using the calibrated with surface energy measurements approach.Master's Thesis, Texas A&M University, USA, 2006.85 Chung K, Lee S, Cho W,et al. Journal of Industrial and Engineering Chemistry, 2018,64,284.86 Li F, Zhou S Q, Chen S, et al.Journal of Materials in Civil Engineering,2018,30(11), 04018303.87 AmericanAssociation of State Highway and Transportation Officials. In:AASHTO-STD.American,2012.88 Gennes P G D.Journal of Chemical Physics,1971,55(2), 572.89 Bhasin A, Bommavaram R, Greenfield M L, et al.Journal of Materials in Civil Engineering,2011,23(4), 485.90 Sun D Q,Lin T,Zhu X, et al. Computational Materials Science,2016,114, 86.91 Sun D Q, Lin T B,Zhu X Y,et al. Computational Materials Science,2016,114, 86.92 Xu G J, Wang H, Sun W.Construction and Building Materials,2018, 158, 1046.93 Xu G J, Wang H.Fuel,2017, 188,1.
渝公网安备50019002502923号 版权所有:《材料导报》编辑部
2020, Vol. 34 
