Sattari, A. S. Et Al. 2020. Simulation of hysteresis in soil-water retention with a correlation between the invading pressure to the governing effective flow area. GRANULAR MATTER , vol.22, no.2 .

Sattari, A. S., Siebelist, M., TOKER, N. K., & Wuttke, F., (2020). Simulation of hysteresis in soil-water retention with a correlation between the invading pressure to the governing effective flow area. GRANULAR MATTER , vol.22, no.2.

Sattari, Amir Et Al. "Simulation of hysteresis in soil-water retention with a correlation between the invading pressure to the governing effective flow area," GRANULAR MATTER , vol.22, no.2, 2020

Sattari, Amir S. Et Al. "Simulation of hysteresis in soil-water retention with a correlation between the invading pressure to the governing effective flow area." GRANULAR MATTER , vol.22, no.2, 2020

Sattari, A. S. Et Al. (2020) . "Simulation of hysteresis in soil-water retention with a correlation between the invading pressure to the governing effective flow area." GRANULAR MATTER , vol.22, no.2.

@article{article, author={Amir Shoarian Sattari Et Al. }, title={Simulation of hysteresis in soil-water retention with a correlation between the invading pressure to the governing effective flow area}, journal={GRANULAR MATTER}, year=2020}