참고문헌 (23)

1. 2000, Quarteroni, A., Tuveri, M. and Veneziani, A., "Computational vascular fluid dynamics: problems, models and methods," Computing and Visualization in Science, Vol.2, No.4, pp.163-197. 

   상세보기

2. 1997, Ku, D.N., "Blood flow in arteries," Annual Review of Fluid Mechanics, Vol.29, No.1, pp.399-434. 

   상세보기

3. 1994, Peskin, C.S. and McQueen, D.M., "Mechanical equilibrium determines the fractal fiber architecture of the aortic heart valve leaflets," American Journal of Physiology-Heart and Circulatory Physiology, Vol.266, No.1, pp.H319-H328. 

   상세보기

4. 2002, de Hart, J., Peters, G.W., Schreurs, P.J. and Baaijens, F.P., "Fluid-structure interaction in the aortic heart valve: a three-dimensional computational analysis," Technische Universiteit Eindhoven, Eindhoven, Netherlands. 

5. 2005, ANSYS Release 10.0, ANSYS theory reference, ANSYS, Inc. 

6. 2006, Hallquist, J.O., LS-DYNA theory manual, Livermore Software Technology Corporation, Livermore, CA, USA. 

7. 2005, Scotti, C.M., Shkolnik, A.D., Muluk, S.C. and Finol, E.A., "Fluid-structure interaction in abdominal aortic aneurysms: effects of asymmetry and wall thickness," Biomedical Engineering Online, Vol.4, No.1, p.1. 

   상세보기

8. 2006, Li, Z. and Kleinstreuer, C., "Analysis of biomechanical factors affecting stent-graft migration in an abdominal aortic aneurysm model," Journal of Biomechanics, Vol.39, No.12, pp.2264-2273. 

   상세보기

9. 2006, Carmody, C.J., Burriesci, G., Howard, I.C. and Patterson, E.A., "An approach to the simulation of fluid-structure interaction in the aortic valve," Journal of Biomechanics, Vol.39, No.1, pp.158-169. 

   상세보기

10. 2006, Gao, F., Watanabe, M. and Matsuzawa, T., "Stress analysis in a layered aortic arch model under pulsatile blood flow," Biomedical Engineering Online, Vol.5, No.1, p.1. 

    상세보기

11. 2011, Crosetto, P., Reymond, P., Deparis, S., Kontaxakis, D., Stergiopulos, N. and Quarteroni, A., "Fluid structure interaction simulation of aortic blood flow," Computers & Fluids, Vol.43, No.1, pp.46-57. 

    상세보기

12. 2011, Wang, X. and Li, X., "Biomechanical behaviors of curved artery with flexible wall: A numerical study using fluid-structure interaction method," Computers in Biology and Medicine, Vol.41, No.11, pp.1014-1021. 

    상세보기

13. 2016, Chen, H.Y., Peelukhana, S.V., Berwick, Z.C., Kratzberg, J., Krieger, J.F., Roeder, B., Chambers, S. and Kassab, G.S., "Fluid-Structure Interaction Simulations of Aortic Dissection with Bench Validation," Journal of Vascular Surgery, Vol.64, No.6, p.1892. 

    상세보기

14. 2005, Nichols, W. and O'Rourke, M., McDonald's blood flow in arteries, Hodder Arnold, London, UK. 

15. 2000, Holzapfel, G.A. and Gasser, T.C., "A new constitutive framework for arterial wall mechanics and a comparative study of material models," Journal of Elasticity and the Physical Science of Solids, Vol.61, No.1-3, pp.1-48. 

    상세보기

16. 2003, Vito, R.P. and Dixon, S.A., "Blood vessel constitutive models 1995-2002," Annual Review of Biomedical Engineering, Vol.5, No.1, pp.413-439. 

    상세보기

17. 2005, ANSYS Release 10.0, ANSYS Coupled-Field Analysis Guide, ANSYS, Inc. 

18. 2000, Souli, M., Ouahsine, A. and Lewin, L., "ALE formulation for fluid-structure interaction problems," Computer Methods in Applied Mechanics and Engineering, Vol.190, No.5, pp.659-675. 

    상세보기

19. 1927, Love, A.E.H., A treatise on the mathematical theory of elasticity, Cambridge University Press. 

20. 1955, Womersley, J.R., "Method for the calculation of velocity, rate of flow and viscous drag in arteries when their pressure gradient is known," The Journal of Physiology, Vol.127, No.3, pp.553-563. 

    상세보기

21. 1957, Womersley, J.R., "Oscillatory flow in arteries: the constrained elastic tube as a model of arterial flow and pulse transmission," Physics in Medicine and Biology, Vol.2, No.2, pp.178-187. 

    상세보기

22. 1985, Humphrey, J.A.C., "Some numerical experiments on developing laminar flow in circular-sectioned bends," Journal of Fluid Mechanics, Vol.154, pp.357-375. 

    상세보기

23. 1970, Timoshenko, S. and Goodier, J.N., Theory of elasticity, McGraw-Hill, New York, USA.