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K B Chandran

Showing results (1-10 of 85) with videos related to

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The Journal of Thoracic and Cardiovascular Surgery|May 1, 1985
Pulsatile flow past St. Jude Medical bileaflet valve. An in vitro studyK B Chandran
Journal of Biomechanical Engineering|November 1, 1993
Flow dynamics in the human aortaK B Chandran
Medical & Biological Engineering & Computing|March 1, 1982
Clinical implications of pressure deformation analysis of curved elastic tubesK B Chandran, G Ray
Journal of Biomechanical Engineering|May 1, 1984
A note on the blood analog for in-vitro testing of heart valve bioprosthesesK B Chandran, B Khalighi
Journal of Biomechanical Engineering|November 1, 1989
An in vitro comparative study of St. Jude Medical and Edwards-Duromedics bileaflet valves using laser anemometryR Fatemi, K B Chandran
Journal of Biomechanics|January 1, 1989
Effect of systolic flow rate on the prediction of effective prosthetic valve orifice areaR Schoephoerster, K B Chandran
Annals of Biomedical Engineering|December 12, 1997
Mechanical valve closing dynamics: relationship between velocity of closing, pressure transients, and cavitation initiationK B Chandran, S Aluri
Annals of Biomedical Engineering|September 15, 2001
Numerical simulation of mechanical mitral heart valve closureS Aluri, K B Chandran
Medical & Biological Engineering & Computing|May 1, 1995
Numerical simulation of instantaneous backflow through central clearance of bileaflet mechanical heart valves at closure: shear stress and pressure fields within clearanceC S Lee, K B Chandran
Journal of Biomechanics|May 1, 1974
Mathematical model of a head subjected to an angular accelerationY K Liu, K B Chandran
Pageof 9

Showing results (1-10 of 85) with videos related to

Sort By:
Pageof 9
The Journal of Thoracic and Cardiovascular Surgery|May 1, 1985
Pulsatile flow past St. Jude Medical bileaflet valve. An in vitro studyK B Chandran
Journal of Biomechanical Engineering|November 1, 1993
Flow dynamics in the human aortaK B Chandran
Medical & Biological Engineering & Computing|March 1, 1982
Clinical implications of pressure deformation analysis of curved elastic tubesK B Chandran, G Ray
Journal of Biomechanical Engineering|May 1, 1984
A note on the blood analog for in-vitro testing of heart valve bioprosthesesK B Chandran, B Khalighi
Journal of Biomechanical Engineering|November 1, 1989
An in vitro comparative study of St. Jude Medical and Edwards-Duromedics bileaflet valves using laser anemometryR Fatemi, K B Chandran
Journal of Biomechanics|January 1, 1989
Effect of systolic flow rate on the prediction of effective prosthetic valve orifice areaR Schoephoerster, K B Chandran
Annals of Biomedical Engineering|December 12, 1997
Mechanical valve closing dynamics: relationship between velocity of closing, pressure transients, and cavitation initiationK B Chandran, S Aluri
Annals of Biomedical Engineering|September 15, 2001
Numerical simulation of mechanical mitral heart valve closureS Aluri, K B Chandran
Medical & Biological Engineering & Computing|May 1, 1995
Numerical simulation of instantaneous backflow through central clearance of bileaflet mechanical heart valves at closure: shear stress and pressure fields within clearanceC S Lee, K B Chandran
Journal of Biomechanics|May 1, 1974
Mathematical model of a head subjected to an angular accelerationY K Liu, K B Chandran
Pageof 9