Chris Bertram
Chris Bertram
Professorial Research Fellow, School of Mathematics & Statistics, University of Sydney
Verified email at sydney.edu.au
Title
Cited by
Cited by
Year
Mapping of instabilities during flow through collapsible tubes
CD Bertram, CJ Raymond, TJ Peldey
J. Fluids Struct 4, 125-154, 1989
148*1989
Mapping of instabilities for flow through collapsed tubes of differing length
CD Bertram, CJ Raymond, TJ Pedley
J. Fluids & Structures 4, 125–153, 1990
1471990
A mathematical model of unsteady collapsible tube behaviour
CD Bertram, TJ Pedley
J. Biomech. 15, 39–50, 1982
1421982
Blood flow in pulmonary veins: III Simultaneous measurements of their dimensions, intravascular pressure and flow
B Rajagopalan, CD Bertram, T Stallard, G Lee
Cardiovascular research 13 (12), 684, 1979
1151979
Unstable equilibrium behaviour in collapsible tubes
CD Bertram
J. Biomech. 19, 61–69, 1986
1011986
Transitional flow at the venous anastomosis of an arteriovenous graft: potential activation of the ERK1/2 mechanotransduction pathway
F Loth, PF Fischer, N Arslan, CD Bertram, SE Lee, TJ Royston, RH Song, ...
ASME J. Biomech. Eng. 125 (1), 49–61, 2003
992003
Application of nonlinear dynamics concepts to the analysis of self-excited oscillations of a collapsible tube conveying a fluid
CD Bertram, CJ Raymond, TJ Pedley
J. Fluids & Structures 5, 391–426, 1991
831991
Three-dimensional collapse and steady flow in thick-walled collapsible tubes
A Marzo, XY Luo, CD Bertram
J Fluids Struct. 20 (6), 817-835, 2005
822005
Three-dimensional collapse and steady flow in thick-walled flexible tubes
A Marzo, XY Luo, CD Bertram
J. Fluids & Structures 20 (6), 817–835, 2005
822005
The effects of wall thickness, axial strain and end proximity on the pressure-area relation of collapsible tubes
CD Bertram
J. Biomech. 20, 863–876, 1987
751987
The relation between arterial viscoelasticity and wave propagation in the canine femoral artery in vivo
WR Milnor, CD Bertram
Circulation Res. 43, 870–879, 1978
751978
Simulation of a chain of collapsible contracting lymphangions with progressive valve closure
CD Bertram, C Macaskill, JE Moore
Journal of biomechanical engineering 133 (1), 2011
692011
The origins of syringomyelia: numerical models of fluid/structure interactions in the spinal cord
CD Bertram, AR Brodbelt, MA Stoodley
672005
Lymphatic system flows
JE Moore Jr, CD Bertram
Annual review of fluid mechanics 50, 459-482, 2018
652018
Flow-induced oscillation of collapsed tubes and airway structures
CD Bertram
Respiratory Physiol. & Neurobiol. 163 (1–3), 256–265, 2008
642008
The onset of flow-rate limitation and flow-induced oscillations in collapsible tubes
CD Bertram, J Tscherry
Journal of fluids and structures 22 (8), 1029-1045, 2006
642006
The mechanisms by which pulsatile flow affects crossflow microfiltration
H Li, CD Bertram, DE Wiley
AIChE J. 44, 1950–1961, 1998
601998
Two modes of instability in a thick-walled collapsible tube conveying a flow
CD Bertram
J. Biomech. 15, 223–224, 1982
571982
Flux enhancement in crossflow microfiltration using a collapsible-tube pulsation generator
CD Bertram, MR Hoogland, H Li, RA Odell, AG Fane
J. Membrane Sci. 84, 279–292, 1993
531993
Development of a model of a multi-lymphangion lymphatic vessel incorporating realistic and measured parameter values
CD Bertram, C Macaskill, MJ Davis, JE Moore
Biomechanics and modeling in mechanobiology 13 (2), 401-416, 2014
472014
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