Scaling Laws for Vascular Buckling, Axial and Circumferential: Applications to Pulse Wave Velocity

Journal of Vascular Medicine & Surgery Pub Date : 2017-06-29 DOI:10.4172/2329-6925.1000322
P. Greene
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Abstract

Background: Scaling laws for cylindrical column buckling are reviewed, applicable to the cardio-vascular system arteries or veins of various thicknesses to diameter ratios. Methods: Critical buckling load scales as (hr/L^2) for axial loads, (h/r)^3 for compressive circumferential loads, and ( h/r)^0.5 for pulse wave velocity. Results: Arteries and veins are most susceptible to buckling failure in collapsible tube mode when circumferential hoop stress exceeds external pressure. Conclusions: Applications include alternating positive (+) and negative (-) wall stresses to investigate the onset of plastic yielding, fatigue, creep, and pulse wave velocity, all relevant to aneurisms, venous thrombosis, hypertension, and arterial sclerosis.
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轴向和周向血管屈曲的标度规律:脉冲波速的应用
背景:综述了适用于不同厚径比的心血管系统动脉或静脉的圆柱柱屈曲的标度规律。方法:轴向载荷为(hr/L^2),周向压缩载荷为(h/r)^3,脉冲波速为(h/r)^ 0.5。结果:在可折叠管模式下,当周向环向应力超过外压时,动脉和静脉最容易发生屈曲破坏。结论:应用包括交替的正(+)和负(-)壁应力来研究塑性屈服、疲劳、蠕变和脉搏波速度的发生,这些都与动脉瘤、静脉血栓形成、高血压和动脉硬化有关。
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Journal of Vascular Medicine & Surgery
Journal of Vascular Medicine & Surgery
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