A HYDRODYNAMIC TEST FACILITY. THE GRUMMAN WHIRLING TANK.REEVES JML.1974; HOVERG CRAFT HYDROFOIL; G.B.; DA. 1974; VOL. 13; NO 10; PP. 12-18Article

FENOMENI PERIODICI ASSOCIATI ALLO SVILUPPO DELLA CAVITAZIONE: INDAGINE SPERIMENTALE ESEGUITA MEDIANTE IL METODO ACUSTICO. = PHENOMENES PERIODIQUES ASSOCIES AU DEVELOPPEMENT DE LA CAVITATION: ETUDE EXPERIMENTALE EFFECTUEE AU MOYEN DE LA METHODE ACOUSTIQUEPULCI DORIA G; TAGLIALATELA L.1974; ENERG. ELETTR.; ITAL.; DA. 1974; VOL. 51; NO 12; PP. 662-679; ABS. FR. ANGL.; BIBL. 25 REF.Article

LIMITING FLOW CAVITATION NUMBER OF WATER JET PUMPSNARUI H; INAGAKI S.1982; BULLETIN OF THE JSME; ISSN 0021-3764; JPN; DA. 1982; VOL. 25; NO 209; PP. 1682-1689; BIBL. 8 REF.Article

HYDROELASTIC CHARACTERISTICS OF FLEXIBLE SUPERCAVITATING HYDROFOILS. II: TWO-DIMENSIONAL THEORY AT ZERO CAVITATION NUMBER WHEN SUPPORTED ELASTICALLYMURAI H; SHIMIZU S.1981; BULL. JSME; ISSN 0021-3764; JPN; DA. 1981; VOL. 24; NO 194; PP. 1388-1396; BIBL. 6 REF.Article

INCEPTION OF CAVITATION FROM A BACKWARD FACING STEPARAKERI VH; RAMARAJAN V.1981; J. FLUIDS ENG; ISSN 0098-2202; USA; DA. 1981; VOL. 103; NO 2; PP. 288-293; BIBL. 15 REF.Article

HYDRODYNAMIC TRENDS FROM A GENERALIZED DESIGN PROCEDURE FOR FULLY CAVITATING HYDROFOIL SECTIONSPARKIN BR; FERNANDEZ J.1979; J. SHIP RES.; USA; DA. 1979; VOL. 23; NO 4; PP. 272-283; BIBL. 10 REF.Article

CAVITATION IN AN EXTREMELY LIMITED FLOW THROUGH VERY SMALL ORIFICESOBA R; IKOHAGI T; KIM KT et al.1982; J. FLUIDS ENG.; ISSN 0098-2202; USA; DA. 1982; VOL. 104; NO 1; PP. 94-98; BIBL. 14 REF.Article

HYDROELASTIC CHARACTERISTICS OF FLEXIBLE SUPERCAVITATING HYDROFOILS. I: TWO-DIMENSIONAL THEORY AT ZERO CAVITATION NUMBER WHEN CLAMPED AT TRAILING EDGEMURAI H; SHIMIZU S.1981; BULL. JSME; ISSN 0021-3764; JPN; DA. 1981; VOL. 24; NO 194; PP. 1379-1387; BIBL. 5 REF.Article

AN EXTENDED LINEARIZED INVERSE THEORY FOR FULLY CAVITATING HYDROFOIL SECTION DESIGNPARKIN BR; FERNANDEZ J.1979; J. SHIP RES.; USA; DA. 1979; VOL. 23; NO 4; PP. 260-271; BIBL. 9 REF.Article

CAVITATION INCEPTION TESTS ON AXISYMMETRIC BEADFORMSSEN SEN PAN; ZHAN MING YANG; PEI SHUEN HSU et al.1981; J. FLUIDS ENG.; ISSN 0098-2202; USA; DA. 1981; VOL. 103; NO 2; PP. 268-272; BIBL. 6 REF.Article

THE EFFECT OF GAS CONTENT ON THE CAVITATION INCEPTION NUMBERNAYLOR P; MILLWARD A.1981; FLOWS OF LIQUIDS PAST BODIES WITH DEVELOPED CAVITIES. EUROMECH COLLOQUIUM. 146/1981/VILLARD DE LANS; FRA; GRENOBLE: INSTITUT DE MECANIQUE DE GRENOBLE; DA. 1981; 19 P.; BIBL. 6 REF.Conference Paper

A FINITE CAVITY FLOW ABOUT A SLENDER BODY OF REVOLUTION IN A TUBENAKATANI H; NAKATANI Y; MIYAI Y et al.1979; BULL. JSME; ISSN 0021-3764; JPN; DA. 1979; VOL. 22; NO 170; PP. 1092-1098; BIBL. 11 REF.Article

CONTACT PROBLEMS INVOLVING THE FLOW PAST AN INFLATED AEROFOILVAN DEN BROECK JM.1982; J. APPL. MECH.; ISSN 0021-8936; USA; DA. 1982; VOL. 49; NO 2; PP. 263-265; BIBL. 10 REF.Article

ON THE RELATION BETWEEN STROUHAL CAVITATION NUMBER AND THE FLOW REGIME IN THE CAVITATOR BOUNDARY LAYERPAUKOV YN; BOLOGA MK.1979; CONFERENCE ON FLUID MACHINERY. 6/1979/BUDAPEST; HUN; BUDAPEST: AKAD. KIADO; DA. 1979; VOL. 2; PP. 819-824; BIBL. 6 REF.Conference Paper

Stress-induced cavitation for the streaming motion of a viscous liquid past a spherePADRINO, J. C; JOSEPH, D. D; FUNADA, T et al.Journal of Fluid Mechanics. 2007, Vol 578, pp 381-411, issn 0022-1120, 31 p.Article

Leading-edge corrections to the linear theory of partially caviting hydrofoilsKINNAS, S. A.Journal of ship research. 1991, Vol 35, Num 1, pp 15-27, issn 0022-4502, 13 p.Article

Approximate solution of the three-dimensional inverse problem for nonlifting bodies with optimum cavitation characteristicsAMROMIN, E. L; BUSHKOVSKII, V. A.Fluid dynamics. 1994, Vol 29, Num 3, pp 373-379, issn 0015-4628Article

Subsonic compressible cavitation flow past a plate at small cavitation numbersZIGANGAREEVA, L. M; KISELEV, O. M.Fluid dynamics. 1998, Vol 33, Num 4, pp 543-551, issn 0015-4628Article

Influence of the nuclei on the cavitation inception for different types of cavitation on ship propellersGINDROZ, B; BILLET, M. L.Journal of fluids engineering. 1998, Vol 120, Num 1, pp 171-178, issn 0098-2202Article

Frequency dependence of mass flow gain factor and cavitation compliance of cavitating inducersOTSUKA, S; TSUJIMOTO, Y; KAMIJO, K et al.Journal of fluids engineering. 1996, Vol 118, Num 2, pp 400-408, issn 0098-2202Article

An experimental investigation of cavitation inception and development on a two-dimensional hydrofoilASTOLFI, J.-A; LEROUX, J.-B; DORANGE, P et al.Journal of ship research. 2000, Vol 44, Num 4, pp 259-269, issn 0022-4502Article

Influence of the air content of water on the inception of tip-vortex cavitation noiseCHALOV, A. V.Soviet physics. Acoustics. 1992, Vol 38, Num 4, pp 414-416, issn 0038-562XArticle

An experiment of cavitating flow around a finite span hydrofoilTAKASUGI, N; YAMAGUCHI, H; KATO, H et al.Journal of the Society of Naval Architects of Japan. 1992, Vol 172, pp 257-265, issn 0514-8499Article

Effect of hydrofoil planform on tip vortex roll-up and cavitationFRUMAN, D. H; CERRUTTI, P; PICHON, T et al.Journal of fluids engineering. 1995, Vol 117, Num 1, pp 162-169, issn 0098-2202Article

Factors to influence surface force induced by propellerSATO, K.Journal of the Society of Naval Architects of Japan. 1999, Vol 186, pp 29-40, issn 0514-8499Article