摘要
The nonlinear dynamic behaviors of viscoelastic axially functionally graded material(AFG)pipes conveying pulsating internal flow are very complex.And the dynamic behavior will induce the failure of the pipes,and research of vibration and stability of pipes becomes a major concern.Considering that the elastic modulus,density,and coefficient of viscoelastic damping of the pipe material vary along the axial direction,the transverse vibration equation of the viscoelastic AFG pipe conveying pulsating fluid is established based on the Euler-Bernoulli beam theory.The generalized integral transform technique(GITT)is used to transform the governing fourth-order partial differential equation into a nonlinear system of fourth-order ordinary differential equations in time.The time domain diagram,phase portraits,Poincarémap and power spectra diagram at different dimensionless pulsation frequencies,are discussed in detail,showing the characteristics of chaotic,periodic,and quasi-periodic motion.The results show that the distributions of the elastic modulus,density,and coefficient of viscoelastic damping have significant effects on the nonlinear dynamic behavior of the viscoelastic AFG pipes.With the increase of the material property coefficient k,the transition between chaotic,periodic,and quasi-periodic motion occurs,especially in the high-frequency region of the flow pulsation.
作者
付光明
庹宇航
张贺恩
苏健
孙宝江
王锴
娄敏
Guangming Fu;Yuhang Tuo;Heen Zhang;Jian Su;Baojiang Sun;Kai Wang;Min Lou(Key Laboratory of Unconventional Oil&Gas Development(China University of Petroleum(East China)),Ministry of Education,Qingdao 266580,China;China Petroleum Pipeline Engineering Co.,Ltd.,Langfang 065201,China;CNPC Offshore Engineering Company Limited,Beijing 100028,China;Nuclear Engineering Department,COPPE,Federal University of Rio de Janeiro,Rio de Janeiro 21941-972,Brazil)
出处
《哈尔滨工程大学学报(英文版)》
CSCD
2023年第2期247-259,共13页
Journal of Marine Science and Application
基金
supported by the National Natural Science Foundation of China(52171288,51890914)
the Key Research and Development Program of Shandong Province(Major Innovation Project)(2022CXGC020405)
the National Ministry of Industry and Information Technology Innovation Special Project-Engineering Demonstration Application of Subsea Oil and Gas Production System-Subject 4“Research on Subsea Christmas Tree and Wellhead Offshore Testing Technology”[MC-201901-S01-04]
the Fundamental Research Funds for the Central Universities(20CX02410A)
the Development Fund of Shandong Key Laboratory of Oil&Gas Storage and Transportation Safety
CNPq,CAPES and FAPERJ of Brazil。
