Assessment of existing micro-mechanical models for asphalt mastic considering inter-particle and physico-chemical interaction

doi:10.1016/j.conbuildmat.2019.07.227

IR > 土木工程学院

	Assessment of existing micro-mechanical models for asphalt mastic considering inter-particle and physico-chemical interaction
	Ma, Xiaoyan 1; Chen, Huaxin 1; Yang, Pingwen 2; Xing, Mingliang 1; Niu, Dongyu 1; Wu, Shujuan1,3
	2019-11-20
发表期刊	CONSTRUCTION AND BUILDING MATERIALS
ISSN	0950-0618
卷号	225 页码:649-660
摘要	y Micromechanical models have been used since the 1990s to predict the properties of asphalt mastic. However, most of these models are found to be unsatisfactory in predicting the mastic's properties because the models were derived from the research of particle-filled composites that did not take into account the asphalt-filler physico-chemical interactions and particle interactions. In this paper, three micro-mechanical models for predicting the complex shear modulus master curve of asphalt mastic are evaluated: the generalized self-consistent scheme model, the four-phase micro-mechanical model, and the particle interaction model. All three micro-mechanical models are based on the mechanical properties of their constituent materials as well as the filler-asphalt physiochemical interactions and the particle interactions. Two virgin asphalt binders and two polymer modified asphalt binders were selected to fabricate 16 mastics of four different filler volume fractions. The accuracy of prediction was evaluated by comparing the relative differences between the experimental complex shear modulus master curves and that predicted by the models. The results suggest that (1) the generalized self-consistent scheme model have a satisfactory prediction at a low filler volume fraction, but their accuracy is significantly affected by frequency; (2) the particle interaction model cannot calculate the complex shear modulus of mastic with a filler volume fraction of more than 0.53; (3) the four-phase model shows a precise forecast of complex shear modulus for mastic with moderate and high filler volume fractions; and (4) for all of the three models, the deviations increase severely with the increase of the filler volume fraction. (C) 2019 Elsevier Ltd. All rights reserved.
关键词	Asphalt mastic Micromechanical model Physico-chemical interaction Particle interaction
DOI	10.1016/j.conbuildmat.2019.07.227
收录类别	SCI ; SCIE
语种	英语
资助项目	Fundamental Research Funds for the Central Universities of China, China[300102318401]
WOS研究方向	Construction & Building Technology ; Engineering ; Materials Science
WOS类目	Construction & Building Technology ; Engineering, Civil ; Materials Science, Multidisciplinary
WOS记录号	WOS:000488305700057
出版者	ELSEVIER SCI LTD
EI入藏号	20193007239861
EI主题词	Mastic asphalt
EI分类号	411.1 Asphalt - 641.1 Thermodynamics - 803 Chemical Agents and Basic Industrial Chemicals - 931.1 Mechanics - 931.3 Atomic and Molecular Physics - 951 Materials Science
引用统计	被引频次：9[WOS] [WOS记录] [WOS相关记录]
文献类型	期刊论文
条目标识符	https://ir.lut.edu.cn/handle/2XXMBERH/31485
专题	土木工程学院
通讯作者	Chen, Huaxin
作者单位	1.Changan Univ, Engn Res Ctr Transportat Mat, Minist Educ, Sch Mat Sci & Engn, Xian 710064, Shaanxi, Peoples R China; 2.Gansu Rd & Bridge Construct Grp Co Ltd, Transport Ind Technol Mat & Equipments Highway Co, Ctr Res & Dev, Lanzhou 730030, Gansu, Peoples R China; 3.Lanzhou Univ Technol, Sch Civil Engn, 287 Langongping Rd, Lanzhou 730031, Gansu, Peoples R China
推荐引用方式 GB/T 7714	Ma, Xiaoyan,Chen, Huaxin,Yang, Pingwen,et al. Assessment of existing micro-mechanical models for asphalt mastic considering inter-particle and physico-chemical interaction[J]. CONSTRUCTION AND BUILDING MATERIALS,2019,225:649-660.
APA	Ma, Xiaoyan,Chen, Huaxin,Yang, Pingwen,Xing, Mingliang,Niu, Dongyu,&Wu, Shujuan.(2019).Assessment of existing micro-mechanical models for asphalt mastic considering inter-particle and physico-chemical interaction.CONSTRUCTION AND BUILDING MATERIALS,225,649-660.
MLA	Ma, Xiaoyan,et al."Assessment of existing micro-mechanical models for asphalt mastic considering inter-particle and physico-chemical interaction".CONSTRUCTION AND BUILDING MATERIALS 225(2019):649-660.

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