Examination of cavitation-induced surface erosion pitting of a mechanical heart valve using closing velocities
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概要
- 論文の詳細を見る
- 2002-09-01
著者
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Lee Hwansung
Department Of Artificial Organs Research Institute National Cardiovascular Center
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Kudo N
Division Of Biomedical Systems Engineering Graduate School Of Engineering Hokkaido University
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Shimooka Toshiyuki
Division Of Biomedical Systems Engineering Graduate School Of Engineering Hokkaido University
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Lee Hwansung
Department Of Biomedical Engineering Korea University Medical Center
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Kudo Nobuki
Division Of Biomedical Systems Engineering Graduate School Of Engineering Hokkaido University
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Mitamura Yoshinori
Division Of Biomedical Systems Engineering Graduate School Of Engineering Hokkaido University
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Yamamoto Katsuyuki
Division Of Biomedical System Engineering Graduate School Of Engineering Hokkaido University
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YUHTA Toshio
Tokyo Denki University
関連論文
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- Characteristics of cavitation intensity in a mechanical heart valve using a pulsatile device : synchronized analysis between visual images and pressure signals
- Estimation of mechanical heart valve cavitation in a pneumatic ventricular assist device
- Mechanism for cavitation of monoleaflet and bileaflet valves in an artificial heart
- Monitoring of Diaphragm Position in Pulsatile Pnumatic Ventricular Assisted Device by Ultrasound Sensor : A New Method for Flow Measurement in VAD(Bioengineering)
- A Study on the Mechanism for Cavitation in the Mechanical Heart Valves with an Electrohydraulic Total Artificial Heart(Bioengineering)
- Observation of cavitation bubbles in monoleaflet mechanical heart valves
- Closing behavior of the mechanical heart valve in a total artificial heart
- Observation of cavitation pits on mechanical heart valve surfaces in an artificial heart used in in vitro testing
- Bone Resorption Rate of Moved and Fixed Teeth during Alveolar Bone Remodeling by Orthodontic Treatment
- Examination of cavitation-induced surface erosion pitting of a mechanical heart valve using closing velocities
- Flow visualization for different port angles of a pulsatile ventricular assist device