Cross bore size and wall thickness effects on elastic pressurised thick cylinders

IF 3.4 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY International Journal of Mechanical and Materials Engineering Pub Date : 2019-04-25 DOI:10.1186/s40712-019-0100-y

P. K. Nziu, L. M. Masu

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引用次数: 3

Abstract

Three-dimensional finite element analyses were performed on closed-ended thick-walled cylinders with a radial cross bore under internal pressure. The aim of this study was to determine the behaviour of the hoop stress as well as to establish the optimal Stress Concentration Factors (SCF). Cylinders of thickness ratios of 3.0 down to 1.4 with cross bore size ratios (cross bore to main bore ratio) ranging from 0.1 to 1.0 were studied. The maximum hoop stress was found to increase with the increase in the cross bore size. Amongst the five different circular radial cross bore size ratios studied, the smallest cross bore size ratio of 0.1, gave the lowest hoop stress while the highest stress occurred with a cross bore size of 1.0. Moreover, the lowest SCF occurred in the smallest cross bore size ratio of 0.1 at a thickness ratio of 2.25 with a SCF magnitude of 2.836. This SCF magnitude indicated a reduction of pressure-carrying capacity of 64.7% in comparison to a similar plain cylinder without a cross bore.

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跨孔尺寸和壁厚对弹性加压厚圆柱的影响

对内压作用下具有径向交叉孔的厚壁封闭圆柱体进行了三维有限元分析。本研究的目的是确定环向应力的行为，并建立最佳应力集中系数(SCF)。研究了厚度比为3.0 ~ 1.4、交叉孔尺寸比(交叉孔与主孔比)为0.1 ~ 1.0的气缸。最大环向应力随横孔尺寸的增大而增大。在研究的5种不同的圆径向十字孔尺寸比中，最小的十字孔尺寸比为0.1时，产生的环向应力最小，而十字孔尺寸为1.0时产生的环向应力最大。当井厚比为2.25时，井径比最小为0.1,SCF值为2.836;该SCF量级表明，与没有十字孔的类似普通圆柱体相比，其承压能力降低了64.7%。

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