Robert Ettema
Affiliations: | Civil & Architectural Engineering | University of Wyoming, Laramie, WY, United States |
Area:
Civil EngineeringGoogle:
"Robert Ettema"
BETA: Related publications
See more...
Publications
|
You can help our author matching system! If you notice any publications incorrectly attributed to this author, please sign in and mark matches as correct or incorrect. |
| Ettema R, AuBuchon J, Holste N, et al. (2020) Large-Flume Tests on Flow Dislodgment of Rocks Forming Bendway Weirs Journal of Hydraulic Engineering. 146: 4020008 |
| Osada K, Ettema R, Shimizu Y, et al. (2020) Influence of Channel Morphology on Ice Conveyance and Bridging: Experiments with a Numerical Model Journal of Cold Regions Engineering. 34: 4019017 |
| Polach RUFvBu, Kellner L, Stender M, et al. (2019) Data for: The non-linear behavior of aqueous model ice in downward flexure Social Behavior and Personality. 1 |
| Ettema R, Armstrong DL. (2019) Bedload and channel morphology along a braided, sand-bed channel: insights from a large flume Journal of Hydraulic Research. 57: 822-835 |
| Ettema R, Baker JL, Howlett G, et al. (2019) Ice-Floe Impact with a Rubble-Mound Causeway at the Port of Nome, Alaska Journal of Cold Regions Engineering. 33: 5019001 |
| Polach RUFvBu, Ettema R, Gralher S, et al. (2019) The non-linear behavior of aqueous model ice in downward flexure Cold Regions Science and Technology. 165: 102775 |
| Ubing C, Ettema R, Thornton CI. (2018) Closure to “Flume experiments on baffle-posts for retarding open-channel flow” by Caroline Ubing, Robert Ettema and Christopher I. Thornton Journal of Hydraulic Research. 56: 433-434 |
| Zey S, Nowroozpour A, Lachhab A, et al. (2018) Wall-Porosity Effects on Sediment Deposition and Scour at a Deflector Wall in an Alluvial Channel Journal of Hydraulic Engineering. 144: 06018002 |
| Ubing C, Ettema R, Thornton CI. (2017) Flume experiments on baffle-posts for retarding open channel flow Journal of Hydraulic Research. 55: 430-437 |
| Ettema R, Constantinescu G, Melville BW. (2017) Flow-Field Complexity and Design Estimation of Pier-Scour Depth: Sixty Years since Laursen and Toch Journal of Hydraulic Engineering. 143: 3117006 |