代表性期刊论文
方向一:结构界面 – 检测与智能算法
[1]. Zou X*, Li M, Xu H, et al. (2025). Array infrared thermography for visualization of defects in bonded fiber reinforced polymer joints. Composites Science and Technology, 259, 110930.
[2]. Zou X*, Wang L, Wang J, et al. (2022). Nondestructive evaluation of carbon fiber reinforced polymer (CFRP)-steel interfacial debonding using eddy current thermography. Composite Structures, 284: 115133
[3]. Zou X, Mirala A, Sneed LH*, et al. (2023). Debonding detection of defected CFRP-concrete interface using microwave thermography. Composite Structures, 310:116753
[4]. Zou X, Mirala A, Sneed LH*, et al. (2021). Detection of CFRP-concrete interfacial debonding with man-made defects using active microwave thermography. Composite Structures, 260:113261
[5]. Li M, Wang L, Zou X*. (2024). Nondestructive evaluation of carbon fiber reinforced polymer (CFRP)-timber interfacial debonding using active microwave thermography (AMT). Construction and Building Materials: 135786
[6]. Zhang F, Wang C, Liu J, Zou X*, et al. (2023). Prediction of FRP-concrete interfacial bond strength based on machine learning. Engineering Structures, 204: 115156 (ESI高被引论文)
[7]. Wang C, Zou X*, et al. (2023). Shear strength prediction of FRP-strengthened concrete beams using interpretable machine learning. Construction and Building Materials, 407, 133553.
[8]. Xu H, Zou X*, et al. (Under review, Revised). Prediction of flexural bearing capacity of FRP reinforced concrete beams based on the combination of Shapley interpretation and machine learning. Engineering Applications of Artificial Intelligence.
[9]. 邹星星, 马浩, 解社娟, 仝宗飞, 胡黎俐, 王辰昕, 王立彬*. (2022). 纤维增强树脂复合材料-钢界面缺陷涡流热成像检测. 复合材料学报, 40 (0): 1-9
[10]. Zou X*, Li M, Ma H, Li J. (Under review). Scanning eddy current thermography for inspection of FRP-steel interfacial defects. Journal of Civil Structural Health Monitoring.
[11]. Zou X*, Jin F, Ma H, et al. (Under review). Intelligent visualization and automated classification of defected paint and rusted steel by eddy current thermography scanning technique. Automation in Construction.
[12]. Zou X*, Xu H, Jin F, Li M. (Under review). Visualization of carbon fiber reinforced polymer (CFRP)-concrete interfacial debonding using active microwave thermography (AMT). NDT&E International.
[13]. Zou X*, Lu J, Li M. (Under review). Inspection of fiber reinforced polymer-timber interfacial debonding using scanning active microwave thermography. Composite Structures.
[14]. Li M, Zou X*, Sneed LH. (Under review). Inspection of defects in bonded fiber reinforced polymer joints by scanning active microwave thermography. Composite Structures.
[15]. Zou X*, Zhang C, et al. (Under review). Visualize of spherical-cap debonding gaps of concrete filled steel tubes using scanning eddy current thermography. Journal of Steel and Composite Structures.
[16]. Zou X*, Zhang C, et al. (Under review). Review of defected concrete filled steel tubular: mechanics, inspection and repairing. Engineering Structures.
[17]. Wang C, Zou X*, et al. (Under review). Prediction of shear strength of FRP-strengthened concrete beams based on physics guided machine learning. Computers and Structures.
[18]. Wang C, Zou X*, et al. (Under review). Prediction of FRP-concrete interfacial bond strength using an interpretable machine learning model tuned by sparrow search algorithm (SSA). Knowledge-based Systems.
[19]. Zou X*, Wang J, et al. (Under review). Array infrared thermography for detection of FRP-metal interfacial defects. Composites Part B.
[20]. Zou X*, Jin F, et al. (Under review). Cool thermography: a fast detection method of defects using liquid nitrogen as a stimulus. NDT&E International.
方向二:结构界面 – 试验与力学解析
[1]. Zou X, Feng P, Wang J*. (2018). Bolted Shear Connection of FRP-Concrete Hybrid Beams. Journal of Composites for Construction @ ASCE, 22(3): 04018012.
[2]. Zou X, Sneed LH*, D'Antino T, Christian C. (2019). Analytical Bond-Slip Model for Fiber Reinforced Cementitious Matrix (FRCM)-Concrete Joints Based on Strain Profile Measurements. Journal of Materials in Civil Engineering @ ASCE, 31(11): 04019247.
[3]. Zou X, Moore C, Sneed LH*. (2021). Investigation on End-Anchorage of SRG Composites Externally Bonded to a Concrete Substrate. ACI Special Publication, ACI SP 345. 2021.
[4]. Zou X, Sneed LH*, D'Antino T. (2020). Full-range behavior of fiber reinforced cementitious matrix (FRCM)-concrete joints using a trilinear bond-slip relationship. Composite Structures, 239: 112024.
[5]. Zou X, Feng P*, Wang J, et al. (2018). FRP stay-in-place form and shear key connection for FRP-concrete hybrid beams/decks. Composite Structures, 192: 489-499.
[6]. Zou X, Wang J*. (2018). Experimental study on joints and flexural behavior of FRP truss-UHPC hybrid bridge. Composite Structures, 203: 414-424.
[7]. Zou X, Feng P, Wang J*. (2016). Perforated FRP ribs for shear connecting of FRP-concrete hybrid beams/decks. Composite Structures, 152: 267-276.
[8]. Zou X, Lin H, Feng P*, et al. (2021). Review on FRP-concrete hybrid sections for bridge applications. Composite Structures, 262: 113336. (ESI高被引论文)
[9]. Zou X, D'Antino T, Sneed LH*. (2021). Investigation of the bond behavior of the fiber reinforced composite-concrete interface using the finite difference method (FDM). Composite Structures, 278: 114643
[10]. Zou X, D'Antino T, Sneed LH*. (2023). Analytical study of the bond behavior of fiber reinforced cementitious matrix (FRCM)-substrate joints based on a two-stage cohesive material law. Composite Structures, 304: 116457
[11]. Zou X, Feng P, Bao Y, Wang J*. (2020). Experimental and analytical studies on shear behaviors of FRP-concrete composite sections. Engineering Structures, 215: 110649
[12]. Duan M, Zou X*, Bao Y, et al. (2022). Experimental investigation of headed studs in steel-ultra-high performance concrete (UHPC) composite sections. Engineering Structures, 270: 114875
[13]. Zhang P, Qi Y, Zou X*, et al. (2023). Prefabricated FRP-concrete hybrid beam with in-situ-cast UHPC pockets. Thin-walled Structures, 185: 110616.
[14]. Zou X, Keenan LM, Sneed LH*. (2023). Investigation of a spike-shaped anchorage for steel fiber reinforced polymers (SRP) strengthened concrete structures. Construction and Building Materials, 389: 131710.
[15]. Zou X, Feng Y, Zhong R*, et al. (2023). An Experimental Study of FRP Truss Side Plate Joint. Construction and Building Materials. 365: 130012
[16]. Zhang P, Li Q, Zou X* et al. (2021). Experimental investigation of shear behavior of FRP-UHPC hybrid beams. Construction and Building Materials, 286: 122720
[17]. Zou X, Sneed LH*. (2020). Bond behavior of steel fiber reinforced polymers (SRP)-concrete joints. International Journal of Concrete Structures and Materials, 14(1): 1-17.
[18]. 邹星星, 陈军, 姜慧, 王景全*. (2016). 高抗剪强度 FRP 型材组合梁成型工艺及试验研究. 土木工程学报, 49(4): 40-47.
[19]. Zou X*, et al. (Under review). How defects affect FRP-concrete interfacial performance: a finite difference method (FDM) method. Journal of Composites for Construction @ ASCE.
[20]. Zou X*. (Under review). Inverse determination of cohesive material law from multi-source test data of direct shear test using physics informed neural network. Engineering Structures.
