Coupled slosh dynamics of liquid-filled, composite cylindrical tanks

Pal N.C.; Sinha P.K.; Bhattacharyya S.K.

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Coupled slosh dynamics of liquid-filled, composite cylindrical tanks

机译：充液复合圆柱罐的晃荡动力学耦合

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The present paper concerns the hydrodynamic coupling of fluid with laminated composite cylinders under small displacements. A numerical model using finite-element technique is presented to study the dynamics of inviscid, incompressible liquid inside thin-walled, flexible, composite cylindrical tanks. The finite-element equations of motion for both the tank wall and the fluid domain are formulated and numerically integrated using Newmark's predictor-multicorrector algorithm. Both fluid transients and structure dynamics problems are dealt with separately before solving for the coupled interaction problems. The solution procedures are applied to both rigid and flexible fluid-tank systems to demonstrate the effect of tank flexibility on the slosh characteristics and the structural response.

机译：本文涉及在小排量下流体与叠层复合圆柱体的流体动力耦合。提出了使用有限元技术的数值模型，以研究薄壁，柔性，复合圆柱罐内无粘性，不可压缩的液体的动力学。罐壁和流体域的有限元运动方程式是使用Newmark的预测器-多重校正器算法制定并进行数值积分的。在解决耦合相互作用问题之前，将分别处理流体瞬态问题和结构动力学问题。该解决方法程序同时应用于刚性和柔性流体储罐系统，以证明储罐柔性对晃荡特性和结构响应的影响。

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来源
《Journal of Engineering Mechanics》 |1999年第4期|共5页
作者
Pal N.C.; Sinha P.K.; Bhattacharyya S.K.;
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正文语种 eng
中图分类工程力学;
关键词
Tanks (containers); Laminated composites; Liquid sloshing; Hydrodynamics; Liquids; Mathematical models; Finite element method; Oscillations; Algorithms; Boundary conditions; Boundary value problems; Galerkin methods; Fluid structure interaction; Slosh dynamics; Laminated composite containers; Inviscid; Incompressible liquid; Newmarks predictor; Eulerian approach;

机译：储罐（容器）;层压复合材料;液体晃荡;水动力;液体;数学模型;有限元法;振荡;算法;边界条件;边值问题;Galerkin方法;流体结构相互作用;晃荡动力学;层压复合容器;无粘性;不可压缩液体;Newmarks预测因子;欧拉方法;

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1. Coupled slosh dynamics of liquid-filled, composite cylindrical tanks [J] . Pal N.C., Sinha P.K., Bhattacharyya S.K. Journal of Engineering Mechanics . 1999,第4期

机译：充液复合圆柱罐的晃荡动力学耦合
2. Dynamic response of structure coupled with liquid sloshing in a laminated composite cylindrical tank with baffle [J] . K.C. Biswal, S.K. Bhattacharyya Finite elements in analysis & design . 2010,第11期

机译：带有隔板的叠层复合圆柱罐中结构与液体晃荡的动力响应
3. Non-linear coupled slosh dynamics of liquid-filled laminated composite containers: a two dimensional finite element approach [J] . Pal NC., Bhattacharyya SK., Sinha PK. Journal of Sound and Vibration . 2003,第4期

机译：充液层压复合容器的非线性耦合晃动动力学：二维有限元方法
4. COUPLED DYNAMIC RESPONSE OF LIQUID FILLED COMPOSITE CYLINDRICAL TANKS WITH BAFFLES [C] . K. C. Biswal, S.K.Bhattacharyya, P. K. Sinha Proceedings of the 5th International Symposium on Fluid-Structure Interaction, Aeroelasticity, Flow-Induced Vibration and Noise . 2002

机译：带挡圈的液体复合圆柱罐的耦合动力响应
5. A Study of Fluid Sloshing in a Cylindrical Fuel Tank with Use of a Laser Scanning System to Capture Fluid Motion and Coupled Eulerian-Lagrangian Analysis for Simulation [D] . Speirs, Benjamin D. 2013

机译：利用激光扫描系统捕获流体运动并利用欧拉-拉格朗日分析耦合进行圆柱油箱中流体晃荡的研究
6. Magnetoelastic Coupled Wave Diffraction and Dynamic Stress Intensity Factor in Graded Piezomagnetic Composites with a Cylindrical Aperture [O] . Yinhuan Jiang, Chuanping Zhou, Ban Wang, 2020

机译：圆柱孔梯度压电复合材料的磁弹性耦合波衍射和动应力强度因子
7. Coupled Responses in a Partially Liquid-Filled Cylindrical Tank with the Single Flexible Baffle under Pitching Excitations [O] . Jiadong Wang, Jinxing Liu, Dan Wang 2019

机译：在俯仰激发下的单个柔性挡板中的部分液体填充圆柱形罐中的耦合响应
8. Coupled Simulation of Vehicle Dynamics and Tank Slosh. Phase 1 Report. Testing and Validation of Tank Slosh Analysis [R] . Wendel, G. R. , Green, S. T. , Burkey, R. C. 2002

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Coupled slosh dynamics of liquid-filled, composite cylindrical tanks

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