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Warianty tytułu
Konferencja
Jubilee Symposium Vibrations In Physical Systems (25 ; 15-19.05.2012 ; Będlewo koło Poznania ; Polska)
Języki publikacji
Abstrakty
The paper deals with some constitutive equations for arterial walls subjected to uniaxial and biaxial extension tests. In spite of a great number of various approaches to development of the strain-stress relations, the models selected for presentation seems to be good representatives of the most characteristic and fundamental ones.
Czasopismo
Rocznik
Tom
Strony
177--184
Opis fizyczny
Bibliogr. 16 poz., rys.
Twórcy
autor
- Poznan University of Technology, Institute of Applied Mechanics, Jana Pawła II 24
autor
- Wroclaw University of Technology Biomedical Engineering and Experimental Mechanics Department, Łukasiewicza 7/9
Bibliografia
- 1. C.J. Chuong, Y.C. Fung, Compressibility and Constitutive Equation 1. of Arterial Wall in Radial Compression Experiments, Journal of Biomechanics, 17 (1984) 35-40.
- 2. Y.C. Fung, Foundations of Solid Mechanics. Prentice Hall 1965
- 3. Y.C. Fung, Elasticity of soft tissues in simple elongation, American Journal of Physiology, 28 (1967) 1532-1544.
- 4. Y.C. Fung, Biomechanics: Mechanical Properties of Living Tissues, Springer 1993
- 5. Y.C. Fung, K. Fronek, P. Patitucci, Pseudoelasticity of arteries and the choice of its mathematical expression. American Journal of Physiology, 237(5) (1979) H620-H631.
- 6. K. Hayashi, Experimental approaches on measuring the mechanical properties and constitutive laws of arterial walls. Journal of Biomechanical Engineering, 115 (1993) 481-488.
- 7. G.A. Holzapfel, T.C. Gasser, R.W. Ogden, A new constitutive framework for arterial wall mechanics and a comparative study of material models. Journal of Elasticity, 61 (2009) 1-48.
- 8. G.A. Holzapfel, T.C. Gasser, R.W. Ogden, Comparison of a multi-layer structural model for arterial walls with a Fung-type model, and issues of material stability. ASME Journal of Biomechanical Engineering, 126 (2004) 264-275.
- 9. G.A. Holzapfel, G. Sommer, C.T. Gasser, P. Regitnig, Determination of layerspecific mechanical properties of human coronary arteries with non-atherosclerotic intimal thickening, and related constitutive modeling. American Journal of Physiology - Heart Circulation Physiology, 289 (2005) H2048-2058.
- 10. G.A. Holzapfel, Biomechanics of soft tissue. In: J. Lemaitre (ed.), The Handbook of Materials Behavior Models, Vol. 3, Multiphysics Behaviors, Chapter 10, Composite Media, Biomaterials, Academic Press: Boston 2001, 1049-1063.
- 11. G.A. Holzapfel, Biomechanics of soft tissues with application to arterial walls. In: J.A.C. Martins and E.A.C. Borges Pires (eds.), Mathematical and Computational Modeling of Biological Systems, Chapter 1, Centro Internacional de Matemática CIM: Coimbra, Portugal 2002, 1-37.
- 12. J.D. Humphrey, Mechanics of arterial walls: Review and directions. Critical Reviews in Biomedical Engineering, 23 (1995) 1-162.
- 13. J.D. Humphrey, Cardiovascular Solid Mechanics: Cells, Tissues, and Organs. Springer 2002.
- 14. T.T. Tanaka, Y.C. Fung, Elastic and inelastic properties of the canine aorta and their variation along the aortic tree. Journal of Biomechanics, 7 (1974) 357-370.
- 15. P. Tong, Y.C. Fung, The Stress-Strain Relationship for the Skin. Journal of Biomechanics, 9 (1976) 649-657.
- 16. E.R. Wylie, Flow through taped tubes with nonlinear wall properties. In Biomechanics Symposium (Y.C. Fung ed.), American Society of Mechanical Engineering, New York 1996, 82-95.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-d1ade364-1eed-4c71-84d5-980880f9dfba