材料分布和流动剖面对悬臂轴向功能梯度管稳定性的影响

IF 1 4区 工程技术 Q4 ENGINEERING, MECHANICAL
Jiayin Dai, Yong-shou Liu, Guo-jun Tong, Zhenyi Yuan
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引用次数: 0

摘要

本文研究了不同材料分布类型和横截面流动剖面对悬臂轴向功能梯度(AFG)管动力学的影响。功能梯度材料作为一种可设计的材料,其在结构中的应用可以通过充分选择材料成分和安排成分分布来提高结构的稳定性。基于欧拉-伯努利梁理论推导了管道系统的控制方程,并采用微分求积法进行了数值求解。根据数值结果,讨论了不同体积分数函数和非均匀流速分布对固有频率和平均临界流速的影响。可以得出结论,AFG材料的增强效果主要是由较硬成分的量的增加引起的。在相同的量下,指数型或幂函数型的纯分布差异会带来更硬的固定端,从而导致对颤振的临界速度略高。忽略不均匀的流速分布会导致对管道稳定性的高估,这种高估甚至在AFG管道上很明显。非均匀流速分布影响稳定流速区和再稳定现象的出现。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Effects of Material Distribution and Flow Profile On the Stability of Cantilevered Axially Functionally Graded Pipes
This article investigates the influences of different material distribution types and flow profiles in the cross-section on dynamics of cantilevered axially functionally graded (AFG) pipe. Functionally graded material as a designable material, its appliance in structures can enhance the stability of the structure by adequately choosing the material constituents and arranging constituents' distribution. The governing equation of the pipe system is derived based on the Euler-Bernoulli beam theory and numerically solved by the differential quadrature method (DQM). The influences of different volume fraction function and non-uniform flow velocity distribution on the natural frequencies and average critical flow velocities are discussed according to the numerical results. It can be concluded that the enhanced effect of the AFG material is mainly caused by increment in the amount of stiffer constituent. With the same amount, pure distribution difference in exponential or power function type that brings stiffer fixed end results in slightly higher critical velocity against flutter. Ignoring the non-uniform flow velocity distribution leads to an overestimation of the pipe's stability and the overestimation is even apparent on AFG pipe. Non-uniform velocity distribution affects the stable flow velocity area and appearance of restabilizing phenomena.
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来源期刊
CiteScore
2.10
自引率
10.00%
发文量
77
审稿时长
4.2 months
期刊介绍: The Journal of Pressure Vessel Technology is the premier publication for the highest-quality research and interpretive reports on the design, analysis, materials, fabrication, construction, inspection, operation, and failure prevention of pressure vessels, piping, pipelines, power and heating boilers, heat exchangers, reaction vessels, pumps, valves, and other pressure and temperature-bearing components, as well as the nondestructive evaluation of critical components in mechanical engineering applications. Not only does the Journal cover all topics dealing with the design and analysis of pressure vessels, piping, and components, but it also contains discussions of their related codes and standards. Applicable pressure technology areas of interest include: Dynamic and seismic analysis; Equipment qualification; Fabrication; Welding processes and integrity; Operation of vessels and piping; Fatigue and fracture prediction; Finite and boundary element methods; Fluid-structure interaction; High pressure engineering; Elevated temperature analysis and design; Inelastic analysis; Life extension; Lifeline earthquake engineering; PVP materials and their property databases; NDE; safety and reliability; Verification and qualification of software.
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