[1] Michael Paidoussis, Fluid-Structure Interactions: Slender Structures and Axial Flow, Elsevier Academic Press, London, (2004).
[2] R. Askarian, M. R. Permoon, and M. Shakouri, Vibration analysis of pipes conveying fluid resting on a fractional Kelvin-Voigt viscoelastic foundation with general boundary conditions, International Journal of Mechanical Sciences, 179, pp. 1-10, August (2020).
[3] R. Khodabakhsh, A. R. Saidi, and R. Bahaadini, An analytical solution for nonlinear vibration and post-buckling of functionally graded pipes conveying fluid considering the rotary inertia and shear deformation effects, Applied Ocean Research, 101 (2020) 1-17.
[4] G. W. Housner, Bending vibration of a pipe line containing flowing fluid, Journal of Applied Mechanics, 19 (1952) 205-208.
[5] R. A. Stein, and M. W. Tobriner, Vibration of Pipes Containing Flowing Fluids, Journal of Applied Mechanics, 37(1970) 906-916.
[6] D. S. Weaver, and T. E. Unny, On the Dynamic Stability of Fluid- Conveying Pipes, Journal of Applied Mechanics, 40 (1975) 48-52.
[7] R. H. Plaut, and K. Huseyin, Instability of Fluid-Conveying Pipes under Axial Load, Journal of Applied Mechanics, 42 (1975) 889-890.
[8] F. J. Hatfield, D. C. Wiggert, R. S. Otwell, Fluid Structure Interaction in Piping by Component Synthesis, Journal of Applied Mechanics, 104 (1982) 318-325.
[9] M. W. Lesmez, D. C. Wigge, and F. J., Hatfield, Modal Analysis of Vibrations in Liquid-Filled Piping Systems, Journal of Fluids Engineering, 112 (1990) 311-318.
[10] M. J. Jweeg, and Z. I. Mohammad, Vibration Characteristics of Different Cross-Section Pipes with Different End Conditions, Engineering and Technology Journal28 (2010) 1634-1654.
[11] Z. Lu, K. Zhang, H. Ding, and L. Chen, Nonlinear vibration effects on the fatigue life of fluid-conveying pipes composed of axially functionally graded materials, Nonlinear Dynamics, 100 (2020) 1091–1104.
[12] Y. Amini, M. Heshmati, F. Daneshmand, Dynamic behavior of conveying-fluid pipes with variable wall thickness through circumferential and axial directions, Marine Structures, 72 (2020) 1-18.
[13] D.B. Giacobbi, C. Semler, and M.P. Païdoussis, Dynamics of pipes conveying fluid of axially varying density, Journal of Sound and Vibration, 473 (2020) 1-10.
[14] J. ElNajjar, and F. Daneshmand, Stability of horizontal and vertical pipes conveying fluid under the effects of additional point masses and springs, Ocean Engineering, 206 (2020).
[15] R. A. Ibrahim, Overview of Mechanics of Pipes Conveying Fluids—Part I: Fundamental Studies, Journal of Pressure Vessel Technology, 132 (2010) 034001-1-034001-32.
[16] Y. Dianlong, M. P. Païdoussis, H. Shen, and L. Wang, Dynamic Stability of Periodic Pipes Conveying Fluid, Journal of Applied Mechanics, 81 (2014) 011008-1-011008-8.
[17] N. Haidar, S. Obaid, and M. Jawad, Instability of Angled Pipeline Arising from Internal Fluids Flow, The Iraqi Journal for Mechanical and Material Engineering, 12 (2012) 222-237.
[18] J. H. Mohmmed, M. A. Tawfik, Q. A. Atiyah, Natural Frequency and Critical Velocities of Heated Inclined Pinned PP-R Pipe Conveying Fluid, journal of achievements in materials and manufacturing engineering, 107 (2021) 15-27.
[19] M. P. Paidousiss, and G. li, Pipes Conveying Fluid: A Model Dynamical Problem. Journal of Fluids and Structures. 7 (1993) 137-204.
[20] Q. Ni, Z. L. Zhang, and L. Wang, Application of the differential transformation method to vibration analysis of pipes conveying fluid, Applied Mathematics and Computation, 217 (2011) 7028-7038.
[21] R. S. Reddy, S. Panda, and A. Gupta, Nonlinear dynamics of an inclined FG pipe conveying pulsatile hot fluid, International Journal of Non-Linear Mechanics, 118 (2020) 1-15.
[22] J. Wu, Dynamic analysis of an inclined beam due to moving loads, Journal of Sound and Vibration, 288 (2005) 107–131.
[23] A. Mamandi, and M. H. Kargarnovin, Dynamic analysis of an inclined Timoshenko beam traveled by successive moving masses/forces with inclusion of geometric nonlinearities, Act Mechanical, 218 (2011) 9–29.
[24] A. Mamandi, M. H. Kargarnovin, and D. Younesian, Nonlinear dynamics of an inclined beam subjected to a moving load, Nonlinear Dynamics, 60 (2010) 277–293.