Li Fangyuan¶
Information
- ORCID
- 0000-0002-2815-3602
- First Contribution
- 2023-05-15
- Last Contribution
- 2025-04-25
- Number Contributions
- 9
- Number Citations
- 37
Top Co-Authors
- Shahzad Qamar (7)
- Hu Xiangcheng (2)
- Shazad Qamar (2)
Top Cited Articles
Persons This Author Cites the Most
- Sanjayan Jay (24)
- Mechtcherine Viktor (15)
- Wang Li (14)
- Wolfs Robert (14)
- Bos Freek (13)
Persons This Author Is Cited Most By
- Chen Baixi (3)
- Lin Xiqiang (2)
- Liu Chao (2)
- Liu Huawei (2)
- Wu Yiwen (2)
- Hu Xiangcheng, Shazad Qamar, Li Fangyuan (2025-04)
Influence of the Shear Span Ratio on the Shear Performance of 3D-Printed Concrete Beams Without Web Reinforcement - Shahzad Qamar, Li Fangyuan (2025-03)
Influence of Concrete Interfaces on the Damage and Pull-Out Behavior of 3D-Printed Concrete Structures - Shazad Qamar, Li Fangyuan (2025-01)
Interfacial Bond-Effects on Shear-Strength and Damage in 3D Printed Concrete Structures:
A Combined Experimental and Numerical Study - Shahzad Qamar, Li Fangyuan (2025-01)
Impact of Concrete Interfaces on the Mechanical Performance of 3D Printed Concrete Structures - Li Fangyuan, Hu Xiangcheng, Shahzad Qamar (2024-12)
Anisotropic Behavior in 3D Printed Concrete:
Finite Element Simulation Approach - Shahzad Qamar, Li Fangyuan (2024-11)
Assessing the Load-Bearing Capacity of 3D Printed Concrete at Early-Ages:
An Innovative Approach - Shahzad Qamar, Li Fangyuan (2024-08)
Assessment of Load-Bearing Capacity and Buildability Failures in 3D Printed Concrete Structures - Shahzad Qamar, Li Fangyuan (2023-09)
An Innovative Method for Buildability-Assessment of 3D Printed Concrete at Early-Ages - Shahzad Qamar, Li Fangyuan (2023-05)
The Influence of Print-Path on Early-Age Plastic Bearing-Capacity and Mechanical Behavior of 3D Printed Concrete:
A Novel Approach for Practical Applications