Yuan-Cheng Fung American bio-engineer
Fung, Y. C. (Yuan-cheng), 1919-
Fung, Y. C. (Yuan-cheng), 1919-2019
Fung, Yuan-cheng, 1919-
Fung, Yuan-cheng, 1919-2019
Fung, Y.C.
Fung, Y. C. (Yuan-cheng)
Fung, Yuan-cheng
VIAF ID: 85337796 (Personal)
Permalink: http://viaf.org/viaf/85337796
Preferred Forms
- 200 _ | ‡a Fung ‡b Yuan-cheng ‡f 1919-....
- 100 1 _ ‡a Fung, Y. C. ‡q (Yuan-cheng)
- 100 1 _ ‡a Fung, Y. C. ‡q (Yuan-cheng), ‡d 1919-
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- 100 1 _ ‡a Fung, Y. C. ‡q (Yuan-cheng), ‡d 1919-2019
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- 100 1 _ ‡a Fung, Yuan-cheng ‡d 1919-2019
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- 100 1 _ ‡a Fung, Yuan-cheng, ‡d 1919-
- 100 1 _ ‡a Fung, Yuan-cheng, ‡d 1919-2019
- 100 0 _ ‡a Yuan-Cheng Fung ‡c American bio-engineer
- 100 0 _ ‡a Yuan-Cheng Fung ‡c American bio-engineer
4xx's: Alternate Name Forms (77)
5xx's: Related Names (2)
Works
Title | Sources |
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Biodynamics | |
Biomechanics in China, Japan, and U.S.A : proceedings of an international conference held in Wuhan, China, in May 1983 | |
Biomechanics, its foundations and objectives. | |
Biomechanics : mechanical properties of living tissues | |
Biomechanics : Motion, Flow, Stress, and Growth | |
Biomechanics : proceedings of a symposium sponsored by the Applied Mechanics Division of the ASME, at the annual meeting, November 30, 1966, New York, N.Y | |
Classical and computational solid mechanics | |
Elastostatic and aerolastic problems ... 1948. | |
Engineering analysis of biological variables: an example of blood pressure over 1 day. | |
Extreme-value statistics of human red blood cells | |
The fibroprotein network of the pulmonary interalveolar wall | |
First course in continuum mechanics | |
Forced perturbation of respiratory system. B. A continuum mechanics analysis | |
Frontiers in biomechanics | |
How many pulmonary alveoli are supplied by a single arteriole and drained by a single venule? | |
Influence of STZ-Induced Diabetes on Zero-Stress States of Rat Pulmonary and Systemic Arteries | |
Introduction to the theory of aeroelasticity | |
An introductory text to bioengineering | |
Inversion of Fahraeus effect and effect of mainstream flow on capillary hematocrit | |
Longitudinal position matrix of the pig coronary vasculature and its hemodynamic implications. | |
The lung--a perspective of biomechanics development | |
Mechanical properties of isolated mammalian ureteral segments | |
Mechanical properties of taenia coli smooth muscle in spontaneous contraction | |
Microcirculation dynamics | |
Microrheology and constitutive equation of soft tissue | |
Morphometry of pig coronary venous system | |
n78095531 | |
New experiments on shear modulus of elasticity of arteries | |
A noncontact method for three-dimensional analysis of vascular elasticity in vivo and in vitro | |
Nonlinear indicial response of complex nonstationary oscillations as pulmonary hypertension responding to step hypoxia | |
On the low-Reynolds-number entry flow into a circular cylindrical tube | |
Patency and compliance of pulmonary veins when airway pressure exceeds blood pressure | |
Peristaltic carrying and mixing of chyme in the small intestine (An analysis of a mathematical model of peristalsis of the small intestine) | |
The physics of coronary blood flow | |
Podstawy mechaniki ciała stałego / Y-c Fung. - Warszawa, 1969. | |
Poiseuille Award lecture. New trends in biorheology | |
Prentice-Hall series in dynamics | |
Proceedings of the Third International Congress of Biorheology, August 28-September 1, 1978, La Jolla, California, USA | |
Pseudoelasticity of arteries and the choice of its mathematical expression | |
Relationship between hypertension, hypertrophy, and opening angle of zero-stress state of arteries following aortic constriction | |
Remodeling of the constitutive equation while a blood vessel remodels itself under stress | |
Renzokutai no rikigaku nyūmon | |
Residual strains in porcine and canine trachea | |
Response to challenge to the Sobin-Fung approach to the study of pulmonary microcirculation | |
Selected works on biomechanics and aeroelasticity | |
Species Dependence of the Zero-Stress State of Aorta: Pig Versus Rat | |
Speed of stress wave propagation in lung | |
Stochastic flow in capillary blood vessels | |
Strain distribution in small blood vessels with zero-stress state taken into consideration | |
Strain distribution in the layered wall of the esophagus. | |
Stress, deformation, and atelectasis of the lung | |
The surface-tension-driven flow of blood from a droplet into a capillary tube | |
Theoretical considerations of the elasticity of red cells and small blood vessels | |
Theoretical pulmonary microvascular impedance | |
Theory of sheet flow in lung alveoli | |
Thin-shell structures: theory, experiment and design | |
Thoracic trauma study: rib markings on the lung due to impact are marks of collapse alveoli, not hemorrhage | |
Tissue engineering, 1988: | |
Tissue remodeling of rat pulmonary arteries in recovery from hypoxic hypertension. | |
Topology and dimensions of pig coronary capillary network | |
Topology of pulmonary arterioles, capillaries, and venules in the cat | |
Transmural myocardial deformation in the canine left ventricle. Normal in vivo three-dimensional finite strains | |
Use of intrinsic modes in biology: examples of indicial response of pulmonary blood pressure to +/- step hypoxia | |
Vascular endothelium-leukocyte interaction; sticking shear force in venules | |
What are the residual stresses doing in our blood vessels? | |
What Nei Jing and Mai Jing say about arterial pulse waves and our attempt to illustrate some of their statements | |
Введение в теорию аэроупругости | |
固体の力学/理論 | |
連続体の力学入門 |