The Fluid-structure Coupling Analysis of Steel-Wire-Reinforced Flexible Pipe Under Inner Fluid Pressure Impact

IF 1.5 Q3 MECHANICS
Zhang Shouyuan
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引用次数: 0

Abstract

Identifying dynamic characteristics of the fluid filled steel-wire-reinforced flexible pipe is vital in controlling the pipe vibration. A direct fluid-structure coupling method based on finite element analysis is proposed and validated by modal simulation of an oil filled T-shape pipe. An innovative way of modeling steel-wire-reinforced rubber pipe is put forward. The modeling method is validated by modal test of the water-filled pipe. The 2nd Mooney-Rivlin constitutive model is used for the rubber material. Transient dynamic simulations of a bending steel-wire-reinforced pipe filled with water under step and sine-shape pressure impact are performed for the first time. Different fluid turbulence models are used to evaluate the influences on pipe vibration. The dynamic characteristics of the water filled flexible pipe is researched under different fluid pressures. The vibration peak frequencies of the water-filled pipe under various impact excitations coincide well with the fluid-structure coupling modes of the pipe.
内流体压力冲击下钢丝增强柔性管流固耦合分析
识别充液钢丝增强软管的动态特性对控制软管振动至关重要。提出了一种基于有限元分析的直接流固耦合方法,并通过充油T形管的模态模拟进行了验证。提出了一种新颖的钢丝增强橡胶管建模方法。通过充水管道的模态试验验证了该建模方法的有效性。橡胶材料采用第二Mooney-Rivlin本构模型。首次对充水弯曲钢丝增强管在阶跃和正弦形压力冲击下的瞬态动力学模拟进行了研究。使用不同的流体湍流模型来评估对管道振动的影响。研究了充水软管在不同流体压力下的动态特性。充水管道在各种冲击激励下的振动峰值频率与管道的流固耦合模式吻合良好。
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CiteScore
1.70
自引率
8.30%
发文量
0
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