Obradoviƒ, P. 1990a Analysis of hydrodynamic loads on piping structures - F S I theory applied on pipe support design. In Proceedings of the International Conference on Engineering Design, ICED, Dubrovnik, Yugoslavia, August 1990.

Obradoviƒ, P. 1990b Fluid-structure interactions: an accident which has demonstrated the necessity for FSI analysis. In Transactions of the 15th IAHR Symposium on Hydraulic Machinery and Cavitation, Belgrade, Yugoslavia, September 1990, Paper J2.

Obradoviƒ, P. 1990c Istrañivanje dinami…kih naprezanja cevovoda usled prelaznih procesa. (Investigation of dynamic loading in piping systems due to pressure surges.) Ph.D. Thesis, University of Belgrade, Department of Mechanical Engineering, Belgrade, Yugoslavia (in Serbo-Croatian).

Ogawa N, Mikoshiba T, and Minowa C (1994), "Hydraulic effects on a large piping system during strong earthquakes," Journal of Pressure Vessel Technology 116 161-168.100. Weaver W, Timoshenko SP, and Young DH (1990), Vibration Problems in Engineering (5^th edition), John Wiley and Sons.

Ohayon R (1986), Variational analysis of a slender fluid-structure system: the elasto-acoustic beam - A new symmetric formulation, International Journal for Numerical Methods in Engineering 22 637-647.

Otwell, R.S. 1982 The effect of elbow translations on pressure transient analysis of piping systems. ASME - PVP, Vol. 64, Fluid transients and fluid-structure interaction, pp. 127-136.

Otwell, R.S. 1984 The effect of elbow restraint on pressure transients. Ph.D. Thesis, Michigan State University, Department of Civil and Sanitary Engineering, East Lansing, USA.

Païdoussis MP (1998), Fluid-Structure Interactions (Slender Structures and Axial Flow), Vol. 1, Academic Press.

Païdoussis, M.P. & Issid, N.T. 1974 Dynamic stability of pipes conveying fluid. Journal of Sound and Vibration 33, 267-294.

Païdoussis, M.P. & Laithier, B.E. 1976 Dynamics of Timoshenko beams conveying fluid. Journal of Mechanical Engineering Science, IMechE 18, 210-220.

Païdoussis, M.P. & Li, G.X. 1993 Pipes conveying fluid: a model dynamical problem. Journal of Fluids and Structures 7, 137-204.

Parmakian, J. 1955 Waterhammer analysis. New York: Prentice-Hall. (Reprint in 1963, New York: Dover Publications)

Paynter, H.M. 1961 Fluid transients in engineering systems. Section 20 in Handbook of Fluid Dynamics by V.L. Streeter (Editor), New York: McGraw-Hill.

Piet-Lahanier N and Ohayon R (1990), "Finite element analysis of a slender fluid-structure system," Journal of Fluids and Structures 4 631-645.

Provoost, G.A. 1976 Investigation into cavitation in a prototype pipeline caused by water hammer. In Proceedings of the 2nd International Conference on Pressure Surges, BHRA, London, UK, September 1976, Paper D2, pp. 13-29.

Rachford, H.H. & Ramsey, E.L. 1975 Application of variational methods to model transient flow in complex liquid transmission systems. In Proceedings of the 50th Annual Fall Meeting, Society of Petroleum Engineers of AIME, Dallas, USA, September-October 1975, Paper SPE 5663.

Rachid FBF and Costa Mattos HS (1994), "Model for structural failure of elasto-viscoplastic pipelines," Meccanica 29 293-304.

Rachid FBF and Costa Mattos HS (1995), "Pressure transients in damageable elasto-plastic pipes," Proceedings of the Joint ASME/JSME Pressure Vessels and Piping Conference, Honolulu, USA, ASME-PVP 301 31-40.

Rachid FBF and Costa Mattos HS (1998), "Modelling of pipeline integrity taking into account the fluid-structure interaction," International Journal for Numerical Methods in Fluids 28 337-355.

Rachid FBF and Costa Mattos HS (1999), "On the suitability of the low Mach number assumption in the modeling of the damage induced by pressure transients in piping systems," Journal of Fluids Engineering 121 112-117.

Rachid FBF, Costa Mattos H, and Stuckenbruck S (1991), "Fluid-structure interaction in elasto-viscoplastic piping systems," Proceedings of the first ASME & JSME Joint Fluids Engineering Conference, Portland, USA, ASME-FED 107 65-73.

Rachid FBF, Costa Mattos H, and Stuckenbruck S (1992), "Waterhammer in inelastic pipes: an approach via an internal variable constitutive theory," Proceedings of the International Conference on Unsteady Flow and Fluid Transients, Durham, UK, ISBN 90-5410-046-X, 63-70.

Rachid FBF, Gama RMS, and Costa Mattos H (1994), "Modelling of hydraulic transients in damageable elasto-viscoplastic piping systems," Applied Mathematical Modelling 18 207-215.

Rachid, F.B.F. & Stuckenbruck, S. 1989 Transients in liquid and structure in viscoelastic pipes. In Proceedings of the 6th International Conference on Pressure Surges, BHRA, Cambridge, UK, October 1989, pp. 69-84.

Rankine, W.J.M. 1870 On the thermodynamic theory of waves of finite longitudinal disturbance. Philosophical Transactions of the Royal Society (London) 160, 277-288.

Raschke E, Seelinger P, Sperber A, and Strassburger R (1994), "Simulation des instationären Verhaltens verfahrenstechnischer Anlagen mit langen Rohrleitungen," Chem.-Ing.-Tech 66 652-660 (in German).

Reissner E (1955), On transverse vibrations of thin, shallow elastic shells, Quarterly of Applied Mathematics 8 169-176.

Regetz, J.D., Jr. 1960 An experimental determination of the dynamic response of a long hydraulic line. Washington: National Aeronautics and Space Administration, Technical Note D-576.

Repp T (1998), Fluiddynamic waterhammer simulations with consideration of fluid-structure interaction, Forschungszentrum Rossendorf e.V., Institute for Safety Research, Annual Report 1998, Dresden, Germany.

Résal, H. 1876 Note sur les petits mouvements d'un fluide incompressible dans un tuyau élastique. (Note on the small motions of incompressible fluids in an elastic tube.) Journal de Mathématiques Pures et Appliquées, Paris, Series 3, 2, 342-344 (in French).

Rich, G.R. 1951 Hydraulic transients. New York: McGraw-Hill. (Reprint in 1963, New York: Dover Publications)

Romander, C.M., Schwer, L.E. & Cagliostro, D.J. 1980 Response of water-filled thin-walled pipes to pressure pulses: experiments and analysis. ASME Journal of Pressure Vessel Technology 102, 56-61.

Rubinow, S.I. & Keller, J.B. 1978 Wave propagation in a viscoelastic tube containing a viscous fluid. Journal of Fluid Mechanics 88, 181-203.

Rutten MCM (1998), "Fluid-solid interaction in large arteries," Ph.D. Thesis, Eindhoven University of Technology, Department of Mechanical Engineering, Eindhoven, The Netherlands.

Schnyder, O. 1929 Druckstöße in Pumpensteigleitungen. (Waterhammer in pump risers.) Schweizerische Bauzeitung 94, 271-273, 283-286 (in German).

Schumann U (1979), Fluid-structure interactions in one-dimensional linear cases, Research Report KfK 2723 B, Kernforschungszentrum Karlsruhe, Germany, 70 pages, ISSN 0303-4003.

Schwarz, W. 1978 Druckstoßberechnung unter Berücksichtigung der Radial- und Längsverschiebungen der Rohrwandung. (Waterhammer calculations taking into account the radial and longitudinal displacements of the pipe wall.) Ph.D. Thesis, Universität Stuttgart, Institut für Wasserbau, Mitteilungen, Heft 43, Stuttgart, Germany, ISSN 0343-1150 (in German).

Schwirian, R.E. & Karabin, M.E. 1981a Use of spar elements to simulate fluid-solid interaction in the finite element analysis of piping system dynamics. In Proceedings of the ASME Symposium on Fluid Transients and Structural Interactions in Piping Systems, Boulder, USA, June 1981, pp. 1-11.

Schwirian, R.E. & Karabin, M.E. 1981b Use of spar elements to simulate fluid acoustical effects and fluid-solid interaction in the finite element analysis of piping system dynamics. Nuclear Engineering and Design 66, 47-59.

Schwirian, R.E. 1982 Methods for simulating fluid-structure interaction and cavitation with existing finite element formulations. ASME - PVP, Vol. 64, Fluid transients and fluid-structure interaction, pp. 261-285.

Schwirian, R.E. 1984 On the use of structural finite element computer codes to perform fluid-dynamical and fluid-structure interactive analyses. In Proceedings of the International Conference on Numerical Methods for Transient and Coupled Problems, Venice, Italy, July 1984, pp. 186-197.

Shu D, Deng J, and Zhao Y (2001), Investigation of pressure in pipe subjected to axial-symmetric pulse loading, International Journal of Impact Engineering 25 523-536.

Simpson, A.R. 1986 Large water hammer pressures due to column separation in sloping pipes. Ph.D. Thesis, The University of Michigan, Department of Civil Engineering, Ann Arbor, USA.

Skalak, R. 1956 An extension of the theory of waterhammer. Transactions of the ASME 78, 105-116.

Spillers, W.R. 1965 Wave propagation in a thin cylindrical shell. ASME Journal of Applied Mechanics 32, 346-350.

Streeter, V.L. & Wylie, E.B. 1967 Hydraulic transients. New York: McGraw-Hill.

Stittgen M and Zielke W (1989), "Fluid-structure interaction in flexible curved pipes," Proceedings of the 6th International Conference on Pressure Surges, BHRA, Cambridge, UK, 101-120.

Stoessel JC, Keowen RS, and Ibanez P (1988), Visco-elastic pipe support effect on water hammer induced loads, Proceedings of the ASME Pressure Vessels and Piping Conference, June'88, New York, USA, ASME-PVP 144 279-281.

Stuckenbruck, S., Wiggert, D.C. & Otwell, R.S. 1985 The influence of pipe motion on acoustic wave propagation. ASME Journal of Fluids Engineering 107, 518-522.

Stuckenbruck, S. & Wiggert, D.C. 1986 Unsteady flow through flexible tubing with coupled axial wall motion. In Proceedings of the 5th International Conference on Pressure Surges, BHRA, Hanover, Germany, September 1986, pp. 11-17.

Suo L and Wylie EB (1990), "Complex wavespeed and hydraulic transients in viscoelastic pipes," Journal of Fluids Engineering 112 496-500.

Svingen, B. 1994 A frequency domain solution of the coupled hydromechanical vibrations in piping systems by the finite element method. In Proceedings of the 17th IAHR Symposium on Hydraulic Machinery and Cavitation, Beijing, China, September 1994, Vol. J, pp. 1259-1269.

Svingen B (1996), "Fluid structure interaction in piping systems," Ph.D. Thesis, The Norwegian University of Science and Technology, Faculty of Mechanical Engineering, Trondheim, Norway.

Svingen B (1996), "Fluid structure interaction in slender pipes," Proceedings of the 7th International Conference on Pressure Surges and Fluid Transients in Pipelines and Open Channels, BHR Group, Harrogate, UK, 385-396.

Svingen B (1997), "Rayleigh damping as an approximate model for transient hydraulic pipe friction," Proceedings of the 8^th International Meeting of the IAHR Work Group on the Behavior of Hydraulic Machinery under Steady Oscillatory Conditions, Chatou, France, Paper F2.

Svingen B and Kjeldsen M (1995), "Fluid structure interaction in piping systems," Proceedings of the International Conference on Finite Elements in Fluids - New Trends and Applications, Venice, Italy, 955-963.

Swaffield JA (1968-1969), The influence of bends on fluid transients propagated in incompressible pipe flow, Proceedings of the Institution of Mechanical Engineers 183 603-614.