@article{Higa_Yasuda_Higa_Shimojima_Hokamoto_Itoh_2016, title={Optical Examination of Shockwave Propagation Induced by an Underwater Wire Explosion}, volume={10}, url={https://journal.multiphysics.org/index.php/IJM/article/view/10-4-343}, DOI={10.21152/1750-9548.10.4.343}, abstractNote={<p>We have been investigating underwater-explosion-induced shockwave-propagation phenomena for use in a robust food-processing system. This system comprises a high-voltage capacitor bank with gap switch, water tank, and wire explosive. We carried-out optical observation of the shockwave generated by a wire explosion using electrical discharge in the water tank. Simultaneously, we measured the shock pressure and investigated the effects of various electrical characteristics upon the shockwave-propagation phenomena. To obtain various strengths of the underwater shockwave, 0.6-, 1.0-, and 1.4-mm-wide wires made from 1.0-mm-thick aluminum plates were used at various voltages. As an example, a shockwave having a propagation velocity of 1,600 m/s was observed using the explosion of the 1.0-mm-wide aluminum wire. We found that the strength of the shockwave could be well-controlled by the discharge voltage and wire size.</p>}, number={4}, journal={The International Journal of Multiphysics}, author={Higa, O and Yasuda, A and Higa, Y and Shimojima, K and Hokamoto, K and Itoh, S}, year={2016}, month={Dec.}, pages={343-354} }