Scholars@Duke publication: The lagrangian characterization of resting flow in the rabbit abdominal aorta

The lagrangian characterization of resting flow in the rabbit abdominal aorta

Publication , Journal Article

Buchanan, JR; Kleinstreuer, C; Truskey, GA

Published in: American Society of Mechanical Engineers Bioengineering Division Publication BED

December 1, 2001

The lagrangian characterization of resting flow in the rabbit abdominal aorta was investigated. The flow fields were computed by using a validated and user-enhanced control volume code. It was found that the pathlines released during the systolic phase reverse direction during the diastolic trough.

Duke Scholars

Author George A. Truskey Biomedical Engineering

Published In

American Society of Mechanical Engineers Bioengineering Division Publication BED

ISSN

1071-6947

Publication Date

December 1, 2001

Volume

Start / End Page

127 / 128

Related Subject Headings

Biomedical Engineering

Citation

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Chicago

ICMJE

MLA

NLM

Buchanan, J. R., Kleinstreuer, C., & Truskey, G. A. (2001). The lagrangian characterization of resting flow in the rabbit abdominal aorta. American Society of Mechanical Engineers Bioengineering Division Publication BED, 50, 127–128.

Buchanan, J. R., C. Kleinstreuer, and G. A. Truskey. “The lagrangian characterization of resting flow in the rabbit abdominal aorta.” American Society of Mechanical Engineers Bioengineering Division Publication BED 50 (December 1, 2001): 127–28.

Buchanan JR, Kleinstreuer C, Truskey GA. The lagrangian characterization of resting flow in the rabbit abdominal aorta. American Society of Mechanical Engineers Bioengineering Division Publication BED. 2001 Dec 1;50:127–8.

Buchanan, J. R., et al. “The lagrangian characterization of resting flow in the rabbit abdominal aorta.” American Society of Mechanical Engineers Bioengineering Division Publication BED, vol. 50, Dec. 2001, pp. 127–28.

Published In

American Society of Mechanical Engineers Bioengineering Division Publication BED

ISSN

1071-6947

Publication Date

December 1, 2001

Volume

Start / End Page

127 / 128

Related Subject Headings

Biomedical Engineering