X
Xu Yang
Researcher at Chang'an University
Publications - 4
Citations - 83
Xu Yang is an academic researcher from Chang'an University. The author has contributed to research in topics: Highway engineering & Discrete element method. The author has an hindex of 2, co-authored 4 publications receiving 11 citations. Previous affiliations of Xu Yang include Monash University, Clayton campus.
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Journal ArticleDOI
New innovations in pavement materials and engineering: A review on pavement engineering research 2021
Jiaqi Chen,Hancheng Dan,Yongjie Ding,Yangming Gao,Meng Guo,Shuaicheng Guo,Bingye Han,Bin Hong,Yue Hou,Chichun Hu,Jing Hu,Ju Huyan,Ju Huyan,Jiwang Jiang,Wei Jiang,Cheng Li,Pengfei Liu,Yu Liu,Zhuangzhuang Liu,Guoyang Lu,Jian Ouyang,Xin Qu,Dongya Ren,Chao Wang,Chaohui Wang,Dawei Wang,Di Wang,Hainian Wang,Haopeng Wang,Yue Xiao,Chao Xing,Huining Xu,Yu Yan,Xu Yang,Lingyun You,Zhanping You,Bin Yu,Huayang Yu,Huanan Yu,Henglong Zhang,Jizhe Zhang,Changhong Zhou,Changjun Zhou,Xingyi Zhu +43 more
TL;DR: In this paper, a review paper on the topic of "New innovations in pavement materials and engineering: A review on pavement engineering research 2021" has been published, which analyzes the research status and future development direction of 5 major fields of pavement engineering.
Journal ArticleDOI
Three-dimensional quantification and classification approach for angularity and surface texture based on surface triangulation of reconstructed aggregates
TL;DR: In this article, a statistical approach to quantify and classify the complexity of aggregate angularity and surface texture is proposed from a statistical perspective, which facilitates the bridging of the gap between aggregate morphology and micromechanical performance of asphalt composites.
Journal ArticleDOI
Stability prediction for asphalt mixture based on evolutional characterization of aggregate skeleton
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Aggregate Representation Approach in 3D Discrete-Element Modeling Supporting Adaptive Shape and Mass Property Fitting of Realistic Aggregates
TL;DR: This work has shown that accurate representations of aggregates in stone-based materials are crucial to conducting reliable discrete-element (DE) simulations based on the microstructure of such materials.