Ye Junhong¶

Information

ORCID: 0000-0003-0948-5115
First Contribution: 2021-01-22
Last Contribution: 2025-11-04
Number Contributions: 21
Number Citations: 466

Top Co-Authors

Top Cited Articles

Ye Junhong, Cui Can, Yu Jiangtao, Yu Kequan et al. (2021-02)
Effect of Polyethylene-Fiber Content on Workability and Mechanical-Anisotropic Properties of 3D Printed Ultra-High-Ductile Concrete (156)

Persons This Author Cites the Most

Persons This Author Is Cited Most By

Chen Wenguang, Yu Jie, Ye Junhong, Yu Jiangtao et al. (2025-11)
3D Printed High-Performance Fiber-Reinforced Cementitious Composites:
Fresh, Mechanical, and Microstructural Properties
Chen Wenguang, Liang Long, Ye Junhong, Liu Lingfei et al. (2025-09)
Machine Learning-Enabled Performance-Based Design of Three-Dimensional Printed Engineered Cementitious Composites
Teng Fei, Ye Junhong, Yu Jie, Weng Yiwei (2025-04)
Multi-Material Printing to Simultaneously Enhance Interlayer and Flexural Performance in 3D Concrete Printing
Chen Wenguang, Liang Long, Zhou Boyang, Ye Junhong et al. (2025-02)
A Fracture Mechanics Model for Predicting Tensile Strength and Fracture Toughness of 3D Printed Engineered Cementitious Composites
Yu Jie, Teng Fei, Ye Junhong, Zhang Dong et al. (2025-01)
Size-Dependent Model to Predict the Flexural-Strength of 3D Printed Engineered Cementitious Composites Beams
Yu Jie, Xu Fengming, Zhang Hanghua, Ye Junhong et al. (2025-01)
Leveraging Incinerator Bottom Ash for Mitigating Early-Age Shrinkage in 3D Printed Engineered Cementitious Composites
Teng Fei, Ye Junhong, Yu Jie, Li Heng et al. (2024-09)
Enhancing Inter-Layer Bond Strength and Flexural Performance in 3D Concrete Printing with SHCC Bonding Agents
Yu Jie, Weng Yiwei, Teng Fei, Ye Junhong et al. (2024-09)
Prediction of the Flexural Strength of 3D Printed SHCC Beams Based on a Stochastic Size-Dependent Model
Teng Fei, Ye Junhong, Yu Jie, Li Heng et al. (2024-07)
Development of Strain-Hardening Cementitious Composites (SHCC) As Bonding Materials to Enhance Inter-Layer and Flexural Performance of 3D Printed Concrete
Ye Junhong, Zhuang Zicheng, Teng Fei, Yu Jie et al. (2024-07)
Comparative Environmental-Assessment of 3D Concrete Printing with Engineered Cementitious Composites
Zhuang Zicheng, Xu Fengming, Ye Junhong, Hu Nan et al. (2024-06)
A Comprehensive Review of Sustainable Materials and Tool-Path-Optimization in 3D Concrete Printing
Chen Wenguang, Ye Junhong, Jiang Fangming, Fediuk Roman et al. (2024-05)
Printability Region for 3D Printable Engineered Cementitious Composites
Yan Kang-Tai, Li Lingzhi, Ye Junhong, Bazarov Dilshod et al. (2024-05)
Anisotropic Size-Effect of 3D Printed LC3-Based Engineered Cementitious Composites
Uddin Md, Ye Junhong, Haque M., Yu Kequan et al. (2024-04)
A Novel Compressive Strength Estimation Approach for 3D Printed Fiber-Reinforced Concrete:
Integrating Machine Learning and Gene Expression Programming
Ye Junhong, Zhang Jiangdi, Yu Jie, Yu Jiangtao et al. (2023-11)
Flexural Behaviors of 3D Printed Lightweight Engineered Cementitious Composites (ECC) Slab with Hollow Sections
Ye Junhong, Yang Minxin, Yu Jiangtao, Dai Yecheng et al. (2023-10)
Size-Effect on Flexural and Fracture Behaviors of 3D Printed Engineered Cementitious Composites:
Experimental and Numerical Studies
Ye Junhong, Teng Fei, Yu Jie, Yu Shiwei et al. (2023-08)
Development of 3D Printable Engineered Cementitious Composites with Incineration-Bottom-Ash for Sustainable and Digital Construction
Uddin Md, Ye Junhong, Deng Boyu, Li Lingzhi et al. (2023-04)
Interpretable Machine Learning for Predicting the Strength of 3D Printed Fiber-Reinforced Concrete
Ye Junhong, Weng Yiwei, Du Hongjian, Li Mingyang et al. (2022-06)
Feasibility of Using Ultra-High-Ductile Concrete to Print Self-Reinforced Hollow Structures
Ye Junhong, Cui Can, Yu Jiangtao, Yu Kequan et al. (2021-02)
Effect of Polyethylene-Fiber Content on Workability and Mechanical-Anisotropic Properties of 3D Printed Ultra-High-Ductile Concrete
Ye Junhong, Cui Can, Yu Jiangtao, Yu Kequan et al. (2021-01)
Fresh and Anisotropic-Mechanical Properties of 3D Printable Ultra-High-Ductile Concrete with Crumb-Rubber