| 1 | Seismic performance evaluation of RC bridge piers designed with direct displacement-based design | Alireza Sepahvand, Horr Khosravi | Amirkabir Journal of Civil Engineering | 2024 | Article In Publication |
| 2 | Seismic performance evaluation of RC bridge piers designed with direct displacement-based design | Alireza Sepahvand, Horr Khosravi | Amirkabir Journal of Civil Engineering | 2024 | Article In Publication |
| 3 | Seismic performance evaluation of RC bridge piers designed with direct displacement-based design | Alireza Sepahvand, Horr Khosravi | Amirkabir Journal of Civil Engineering | 2024 | Article In Publication |
| 4 | Seismic performance evaluation of RC bridge piers designed with direct displacement-based design | Alireza Sepahvand, Horr Khosravi | Amirkabir Journal of Civil Engineering | 2024 | Article In Publication |
| 5 | Seismic performance evaluation of RC bridge piers designed with direct displacement-based design | Alireza Sepahvand, Horr Khosravi | Amirkabir Journal of Civil Engineering | 2024 | Article In Publication |
| 6 | Seismic performance evaluation of RC bridge piers designed with direct displacement-based design | Alireza Sepahvand, Horr Khosravi | Amirkabir Journal of Civil Engineering | 2024 | Article In Publication |
| 7 | The advantages of using initial stiffness in direct displacement-based design | Nasir Pourali, Horr Khosravi | Journal of Building Engineering | 2023 | Article In Publication |
| 8 | The advantages of using initial stiffness in direct displacement-based design | Nasir Pourali, Horr Khosravi | Journal of Building Engineering | 2023 | Article In Publication |
| 9 | The advantages of using initial stiffness in direct displacement-based design | Nasir Pourali, Horr Khosravi | Journal of Building Engineering | 2023 | Article In Publication |
| 10 | The advantages of using initial stiffness in direct displacement-based design | Nasir Pourali, Horr Khosravi | Journal of Building Engineering | 2023 | Article In Publication |
| 11 | The advantages of using initial stiffness in direct displacement-based design | Nasir Pourali, Horr Khosravi | Journal of Building Engineering | 2023 | Article In Publication |
| 12 | The advantages of using initial stiffness in direct displacement-based design | Nasir Pourali, Horr Khosravi | Journal of Building Engineering | 2023 | Article In Publication |
| 13 | On advantages of the "Substitute Frame" model for incremental dynamic analysis: Integration of speed and accuracy | Reza Soleimani, Hamed Hamidi, Horr Khosravi | Structures | 2022 | Article In Publication |
| 14 | Characterization of site location versus the causative fault in seismic demands of structures | Shakiba Monfaredi, Hamed Hamidi, Horr Khosravi | Structures | 2022 | Article In Publication |
| 15 | Seismic force demand on RC shear walls for direct displacement-based design | Saeed Abdi, Horr Khosravi, Amir Hossein Jafarieh | Structural Concrete | 2022 | Article In Publication |
| 16 | On advantages of the "Substitute Frame" model for incremental dynamic analysis: Integration of speed and accuracy | Reza Soleimani, Hamed Hamidi, Horr Khosravi | Structures | 2022 | Article In Publication |
| 17 | Seismic force demand on RC shear walls for direct displacement-based design | Saeed Abdi, Horr Khosravi, Amir Hossein Jafarieh | Structural Concrete | 2022 | Article In Publication |
| 18 | Characterization of site location versus the causative fault in seismic demands of structures | Shakiba Monfaredi, Hamed Hamidi, Horr Khosravi | Structures | 2022 | Article In Publication |
| 19 | On advantages of the "Substitute Frame" model for incremental dynamic analysis: Integration of speed and accuracy | Reza Soleimani, Hamed Hamidi, Horr Khosravi | Structures | 2022 | Article In Publication |
| 20 | Seismic force demand on RC shear walls for direct displacement-based design | Saeed Abdi, Horr Khosravi, Amir Hossein Jafarieh | Structural Concrete | 2022 | Article In Publication |
