M. Rasoolinejad Et Al. , "Fracture and Size Effect Suppression by Mesh Reinforcement of Concrete and Justification of Empirical Shrinkage and Temperature Reinforcement in Design Codes," JOURNAL OF ENGINEERING MECHANICS , vol.146, no.10, 2020
Rasoolinejad, M. Et Al. 2020. Fracture and Size Effect Suppression by Mesh Reinforcement of Concrete and Justification of Empirical Shrinkage and Temperature Reinforcement in Design Codes. JOURNAL OF ENGINEERING MECHANICS , vol.146, no.10 .
Rasoolinejad, M., Dönmez, A. A., & Bazant, Z. P., (2020). Fracture and Size Effect Suppression by Mesh Reinforcement of Concrete and Justification of Empirical Shrinkage and Temperature Reinforcement in Design Codes. JOURNAL OF ENGINEERING MECHANICS , vol.146, no.10.
Rasoolinejad, Mohammad, Ahmet Abdullah Dönmez, And Zdenek P. Bazant. "Fracture and Size Effect Suppression by Mesh Reinforcement of Concrete and Justification of Empirical Shrinkage and Temperature Reinforcement in Design Codes," JOURNAL OF ENGINEERING MECHANICS , vol.146, no.10, 2020
Rasoolinejad, Mohammad Et Al. "Fracture and Size Effect Suppression by Mesh Reinforcement of Concrete and Justification of Empirical Shrinkage and Temperature Reinforcement in Design Codes." JOURNAL OF ENGINEERING MECHANICS , vol.146, no.10, 2020
Rasoolinejad, M. Dönmez, A. A. And Bazant, Z. P. (2020) . "Fracture and Size Effect Suppression by Mesh Reinforcement of Concrete and Justification of Empirical Shrinkage and Temperature Reinforcement in Design Codes." JOURNAL OF ENGINEERING MECHANICS , vol.146, no.10.
@article{article, author={Mohammad Rasoolinejad Et Al. }, title={Fracture and Size Effect Suppression by Mesh Reinforcement of Concrete and Justification of Empirical Shrinkage and Temperature Reinforcement in Design Codes}, journal={JOURNAL OF ENGINEERING MECHANICS}, year=2020}