"DESIGN OF EXPERIMENTAL SETUP FOR INVESTIGATION OF CAVITATION BUBBLE COLLAPSE CLOSE TO A SOLID WALL"@en . "2011-01-01+01:00"^^ . . "RIV/46747885:24210/12:#0005601!RIV14-GA0-24210___" . . "DESIGN OF EXPERIMENTAL SETUP FOR INVESTIGATION OF CAVITATION BUBBLE COLLAPSE CLOSE TO A SOLID WALL" . . . . "M\u00FCller, Milo\u0161" . . "4"^^ . . "10.1051/epjconf/20122502017" . "EPJ Web of Conferences" . "24210" . "E D P SCIENCES" . . "RIV/46747885:24210/12:#0005601" . . "2100-014X" . "Zima, Patrik" . . . . "000304449600120" . . "cavitation; bubble; collapse; solid wall"@en . "Unger, Ji\u0159\u00ED" . "\u017Divn\u00FD, Martin" . "4"^^ . "130328" . "P(GAP101/10/1428), Z(MSM4674788501)" . "Czech Republic" . "DESIGN OF EXPERIMENTAL SETUP FOR INVESTIGATION OF CAVITATION BUBBLE COLLAPSE CLOSE TO A SOLID WALL"@en . "FRANCIE" . . . . . "The article describes experimental setup for investigation of the impact load from collapsing cavitation bubble on a solid wall. A vapour bubble is generated inside a cubic chamber by local heating of water inside a thin channel in a button. The bubble collapse is initiated by a piezoelectric actuator attached to the flexible wall of the chamber. A laser diode with a linear CCD sensor are used to detect the bubble position during its buoyancy-driven rise to the upper wall of the chamber. The bubble collapse impact load is measured using a PVDF piezoelectric transducer glued to the upper wall of the chamber and recorded by high-speed CCD camera illuminated by a high-power LED diode. The pressure inside the chamber is measured by the dynamic pressure transducer. All the system components are controlled and synchronized by an oscilloscope and pulse generator using the LabView software." . . "2"^^ . "The article describes experimental setup for investigation of the impact load from collapsing cavitation bubble on a solid wall. A vapour bubble is generated inside a cubic chamber by local heating of water inside a thin channel in a button. The bubble collapse is initiated by a piezoelectric actuator attached to the flexible wall of the chamber. A laser diode with a linear CCD sensor are used to detect the bubble position during its buoyancy-driven rise to the upper wall of the chamber. The bubble collapse impact load is measured using a PVDF piezoelectric transducer glued to the upper wall of the chamber and recorded by high-speed CCD camera illuminated by a high-power LED diode. The pressure inside the chamber is measured by the dynamic pressure transducer. All the system components are controlled and synchronized by an oscilloscope and pulse generator using the LabView software."@en . "http://www.epj-conferences.org/articles/epjconf/pdf/2012/07/epjconf_EFM2011_02017.pdf" . . . "DESIGN OF EXPERIMENTAL SETUP FOR INVESTIGATION OF CAVITATION BUBBLE COLLAPSE CLOSE TO A SOLID WALL" . . "[3259635BDFB5]" .