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C D Bertram

Showing results (31-40 of 65) with videos related to

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Journal of Biomechanical Engineering|August 1, 1997
LDA measurements of velocities in a simulated collapsed tubeC D Bertram, S A Godbole
Journal of Biomechanical Engineering|May 5, 2005
The flow field downstream of an oscillating collapsed tubeC D Bertram, A H Nugent
Artificial Organs|June 14, 2001
Computational fluid dynamics performance prediction for the hydrodynamic bearings of the ventrassist rotary blood pumpC D Bertram, Y Qian, J A Reizes
Medical Engineering & Physics|May 18, 2016
Pump function curve shape for a model lymphatic vesselC D Bertram, C Macaskill, J E Moore
Journal of Biomechanical Engineering|December 29, 2010
Simulation of a chain of collapsible contracting lymphangions with progressive valve closureC D Bertram, C Macaskill, J E Moore
Journal of Biomedical Engineering|September 1, 1993
Analysis of all possible combinations of four measurements determining true propagation in arteriesJ She, C D Bertram, B S Gow
Computer Methods in Biomechanics and Biomedical Engineering|February 8, 2013
Incorporating measured valve properties into a numerical model of a lymphatic vesselC D Bertram, C Macaskill, J E Moore
Journal of Biomechanical Engineering|May 11, 2019
Inhibition of Contraction Strength and Frequency by Wall Shear Stress in a Single-Lymphangion ModelC D Bertram, C Macaskill, J E Moore
Journal of Biomechanical Engineering|August 1, 1989
Oscillations in a collapsed-tube analog of the brachial artery under a sphygmomanometer cuffC D Bertram, C J Raymond, K S Butcher
Journal of Biomechanical Engineering|March 1, 2006
The origins of syringomyelia: numerical models of fluid/structure interactions in the spinal cordC D Bertram, A R Brodbelt, M A Stoodley
Pageof 7

Showing results (31-40 of 65) with videos related to

Sort By:
Pageof 7
Journal of Biomechanical Engineering|August 1, 1997
LDA measurements of velocities in a simulated collapsed tubeC D Bertram, S A Godbole
Journal of Biomechanical Engineering|May 5, 2005
The flow field downstream of an oscillating collapsed tubeC D Bertram, A H Nugent
Artificial Organs|June 14, 2001
Computational fluid dynamics performance prediction for the hydrodynamic bearings of the ventrassist rotary blood pumpC D Bertram, Y Qian, J A Reizes
Medical Engineering & Physics|May 18, 2016
Pump function curve shape for a model lymphatic vesselC D Bertram, C Macaskill, J E Moore
Journal of Biomechanical Engineering|December 29, 2010
Simulation of a chain of collapsible contracting lymphangions with progressive valve closureC D Bertram, C Macaskill, J E Moore
Journal of Biomedical Engineering|September 1, 1993
Analysis of all possible combinations of four measurements determining true propagation in arteriesJ She, C D Bertram, B S Gow
Computer Methods in Biomechanics and Biomedical Engineering|February 8, 2013
Incorporating measured valve properties into a numerical model of a lymphatic vesselC D Bertram, C Macaskill, J E Moore
Journal of Biomechanical Engineering|May 11, 2019
Inhibition of Contraction Strength and Frequency by Wall Shear Stress in a Single-Lymphangion ModelC D Bertram, C Macaskill, J E Moore
Journal of Biomechanical Engineering|August 1, 1989
Oscillations in a collapsed-tube analog of the brachial artery under a sphygmomanometer cuffC D Bertram, C J Raymond, K S Butcher
Journal of Biomechanical Engineering|March 1, 2006
The origins of syringomyelia: numerical models of fluid/structure interactions in the spinal cordC D Bertram, A R Brodbelt, M A Stoodley
Pageof 7