A. Turgut Et Al. , "A new empirical equation proposed for the relationship between surface rupture length and the earthquake source parameters," BULLETIN OF ENGINEERING GEOLOGY AND THE ENVIRONMENT , vol.76, no.1, pp.383-392, 2017
Turgut, A. Et Al. 2017. A new empirical equation proposed for the relationship between surface rupture length and the earthquake source parameters. BULLETIN OF ENGINEERING GEOLOGY AND THE ENVIRONMENT , vol.76, no.1 , 383-392.
Turgut, A., Isik, N. S., & Kasapoglu, K. E., (2017). A new empirical equation proposed for the relationship between surface rupture length and the earthquake source parameters. BULLETIN OF ENGINEERING GEOLOGY AND THE ENVIRONMENT , vol.76, no.1, 383-392.
Turgut, A., NİHAT SİNAN IŞIK, And K. Ercin Kasapoglu. "A new empirical equation proposed for the relationship between surface rupture length and the earthquake source parameters," BULLETIN OF ENGINEERING GEOLOGY AND THE ENVIRONMENT , vol.76, no.1, 383-392, 2017
Turgut, A. Et Al. "A new empirical equation proposed for the relationship between surface rupture length and the earthquake source parameters." BULLETIN OF ENGINEERING GEOLOGY AND THE ENVIRONMENT , vol.76, no.1, pp.383-392, 2017
Turgut, A. Isik, N. S. And Kasapoglu, K. E. (2017) . "A new empirical equation proposed for the relationship between surface rupture length and the earthquake source parameters." BULLETIN OF ENGINEERING GEOLOGY AND THE ENVIRONMENT , vol.76, no.1, pp.383-392.
@article{article, author={A. Turgut Et Al. }, title={A new empirical equation proposed for the relationship between surface rupture length and the earthquake source parameters}, journal={BULLETIN OF ENGINEERING GEOLOGY AND THE ENVIRONMENT}, year=2017, pages={383-392} }