Merter, O. And Uçar, T. 2017. Energy-based design base shear for RC frames considering global failure mechanism and reduced hysteretic behavior. STRUCTURAL ENGINEERING AND MECHANICS , vol.63, no.1 , 23-35.

Merter, O., & Uçar, T., (2017). Energy-based design base shear for RC frames considering global failure mechanism and reduced hysteretic behavior. STRUCTURAL ENGINEERING AND MECHANICS , vol.63, no.1, 23-35.

Merter, Onur, And TANER UÇAR. "Energy-based design base shear for RC frames considering global failure mechanism and reduced hysteretic behavior," STRUCTURAL ENGINEERING AND MECHANICS , vol.63, no.1, 23-35, 2017

Merter, Onur And Uçar, TANER. "Energy-based design base shear for RC frames considering global failure mechanism and reduced hysteretic behavior." STRUCTURAL ENGINEERING AND MECHANICS , vol.63, no.1, pp.23-35, 2017

Merter, O. And Uçar, T. (2017) . "Energy-based design base shear for RC frames considering global failure mechanism and reduced hysteretic behavior." STRUCTURAL ENGINEERING AND MECHANICS , vol.63, no.1, pp.23-35.

@article{article, author={Onur Merter And author={TANER UÇAR}, title={Energy-based design base shear for RC frames considering global failure mechanism and reduced hysteretic behavior}, journal={STRUCTURAL ENGINEERING AND MECHANICS}, year=2017, pages={23-35} }