Uçar, T. And Merter, O. Effect of Kinematic Hardening and Ductility Ratio on Inelastic Input Energy Spectra of Near-Fault Ground Motions. 2021. In Energy-Based Seismic Engineering , Springer Nature, Zug, 117-131.

Uçar, T., & Merter, O., (2021). Effect of Kinematic Hardening and Ductility Ratio on Inelastic Input Energy Spectra of Near-Fault Ground Motions. Energy-Based Seismic Engineering (pp.117-131), Zug: Springer Nature.

Uçar, TANER, And Onur Merter. "Effect of Kinematic Hardening and Ductility Ratio on Inelastic Input Energy Spectra of Near-Fault Ground Motions." In Energy-Based Seismic Engineering , 117-131. Zug: Springer Nature, 2021

Uçar, TANER And Merter, Onur. "Effect of Kinematic Hardening and Ductility Ratio on Inelastic Input Energy Spectra of Near-Fault Ground Motions." Energy-Based Seismic Engineering , Springer Nature, 2021, pp.117-131.

Uçar, T. And Merter, O. (2021) "Effect of Kinematic Hardening and Ductility Ratio on Inelastic Input Energy Spectra of Near-Fault Ground Motions", Energy-Based Seismic Engineering . Zug: Springer Nature.

@bookchapter{bookchapter, author ={TANER UÇAR And author ={Onur Merter}, chaptertitle={Effect of Kinematic Hardening and Ductility Ratio on Inelastic Input Energy Spectra of Near-Fault Ground Motions}, booktitle={ Energy-Based Seismic Engineering}, publisher={Springer Nature}, city={Zug},year={2021} }