Zuyin Zou 
- : An experimental and simulated investigation into the seismic performance of Chuan-dou timber structures with infilled walls. In: Bulletin of Earthquake Engineering.
- (2024): Mechanics and microstructure analysis of geopolymer utilizing ilmenite tailing and metakaolin powder as alkali-activated materials. In: Case Studies in Construction Materials, v. 21 (Dezember 2024).
- (2024): Strut model and seismic performance of infilled frame structures considering the influence of constructional columns. In: Structures, v. 61 (März 2024).
- (2023): Experimental study and simulation of workability and compressive performance of SCC with high-volume mineral admixtures. In: Construction and Building Materials, v. 409 (Dezember 2023).
- (2023): Study on the deformation and cracking characteristics of bamboo fiber reinforced concrete anti-slide pile considering the aspect ratio, fiber dosage and its coupling effect with rebars. In: Engineering Structures, v. 294 (November 2023).
- (2023): Study on the influence of constructional column on the seismic performance of infilled wall frame structure. In: Journal of Building Engineering, v. 63 (Januar 2023).
- (2022): Torsional effect of the single-bay masonry building considering seismic wave incident angle. In: Structures, v. 44 (Oktober 2022).
- (2021): Study on Dynamic Response Characteristics and Damage Mechanism of Tunnel Lining at Entrance of Shallow Bias Tunnel. In: Shock and Vibration, v. 2021 (Januar 2021).
- (2022): Seismic behavior of Chuan-dou timber frames with different infilled walls. In: Construction and Building Materials, v. 327 (April 2022).
- (2020): A new construction technology suitable for frame partitioned infill walls with sliding nodes and large openings: Test results. In: Construction and Building Materials, v. 258 (Oktober 2020).
- (2020): Experimental study on a steel frame infill wall based on vertical partitioning technology. In: Engineering Structures, v. 213 (Juni 2020).
- (2019): Energy Consumption Analysis of Frozen Sandy Soil and an Improved Double Yield Surface Elastoplastic Model considering the Particle Breakage. In: Advances in Civil Engineering, v. 2019 ( 2019).
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