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伊利扎罗夫环形外固定器中克氏针作为预张紧细长梁的分析建模

Analytical modelling of Kirschner wires in Ilizarov circular external fixator as pretensioned slender beams.

作者信息

Zamani A R, Oyadiji S O

机构信息

School of Mechanical, Aerospace and Civil Engineering, University of Manchester, Manchester M60 1QD, UK.

出版信息

J R Soc Interface. 2009 Mar 6;6(32):243-56. doi: 10.1098/rsif.2008.0251.

DOI:10.1098/rsif.2008.0251

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2659583/

Abstract

Transfixing thin Kirschner wires (K-wires) are the key components of the Ilizarov fixator regarding its axial stiffness, which affects the mechanobiological environment in which bone is healed. Mechanically speaking, K-wires are slender beams that are axially tensioned, then fixed and transversely loaded. The existing solutions to such a problem either do not accommodate any axial loading prior to transverse loading, or do not account for the change in the axial load (reaction) due to transverse loading. Their applicability is also limited vis-à-vis applied loads and beam dimensions. This work seeks to address those problems by providing a mathematical formulation for a pretensioned slender beam that accounts for the change in the beam tension due to lateral loading. Central loading of a pretensioned beam was studied and new polynomial equations have been derived, the roots of which yield the final tension for a (i) long, slender and heavily loaded beam and (ii) relatively thicker beam subjected to a lower load. Results were produced and discussed for the specific application of pretensioned K-wires in circular (ring) external fixators in orthopaedics (such as Ilizarov's), which were checked (validated) via two- and three-dimensional finite-element analyses.

摘要

贯穿细克氏针（K 针）是伊里扎洛夫外固定器轴向刚度的关键组成部分，而轴向刚度会影响骨愈合的机械生物学环境。从力学角度讲，K 针是细长梁，先轴向张紧，然后固定并承受横向载荷。针对此类问题，现有的解决方案要么在横向加载之前不考虑任何轴向载荷，要么没有考虑横向加载导致的轴向载荷（反力）变化。它们的适用性在施加的载荷和梁尺寸方面也受到限制。这项工作旨在通过为预张紧细长梁提供一种数学公式来解决这些问题，该公式考虑了横向加载导致的梁张力变化。研究了预张紧梁的中心加载情况，并推导了新的多项式方程，其根给出了（i）长、细且重载梁和（ii）承受较低载荷的相对较粗梁的最终张力。针对预张紧 K 针在骨科（如伊里扎洛夫外固定器）圆形（环形）外固定器中的具体应用给出了结果并进行了讨论，这些结果通过二维和三维有限元分析进行了检验（验证）。