TY - GEN
T1 - Power law of injection pressure and nozzle diameter on aggressive intensity of a cavitating jet
AU - Soyama, H.
PY - 2012
Y1 - 2012
N2 - Cavitation impacts caused by a cavitating jet can be applied for surface modification instead of shot peening, the surface modification using the cavitating impact is named as cavitation peening. In the case of practical application of the cavitation peening, it is required to estimate the aggressive intensity of the cavitating jet. In the present paper, in order to estimate the aggressive intensity of the jet, the power law of the injection pressure and the nozzle throat diameter was investigated, as the cavitation impact energy is increasing with power laws of velocity and characteristic size.
AB - Cavitation impacts caused by a cavitating jet can be applied for surface modification instead of shot peening, the surface modification using the cavitating impact is named as cavitation peening. In the case of practical application of the cavitation peening, it is required to estimate the aggressive intensity of the cavitating jet. In the present paper, in order to estimate the aggressive intensity of the jet, the power law of the injection pressure and the nozzle throat diameter was investigated, as the cavitation impact energy is increasing with power laws of velocity and characteristic size.
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M3 - Conference contribution
AN - SCOPUS:84872796310
SN - 9781855981317
T3 - BHR Group - 21st International Conference on Water Jetting: Looking to the Future, Learning from the Past
SP - 343
EP - 354
BT - BHR Group - 21st International Conference on Water Jetting
T2 - 21st International Conference on Water Jetting: Looking to the Future, Learning from the Past
Y2 - 19 September 2012 through 22 September 2012
ER -