Abstract:
The strength of hexane and glycerol was measured under impulsive tension produced by interaction of a triangular compression pulse with a free surface. The tests were performed for strain rates of 104–105 sec−1. It is established that the strength of hexane is equal to 14 MPa and does not depend on the strain rate, whereas the strength of glycerol increases from 57 to 142 MPa with an order of magnitude increase in the strain rate. The possibility of using the model of homogeneous nucleation to interpret the data obtained is discussed.
Citation:
A. V. Utkin, V. A. Sosikov, A. A. Bogach, “Impulsive tension of hexane and glycerol under shock-wave loading”, Prikl. Mekh. Tekh. Fiz., 44:2 (2003), 27–33; J. Appl. Mech. Tech. Phys., 44:2 (2003), 174–179
This publication is cited in the following 15 articles:
A N Zubareva, A V Utkin, V M Mochalova, V P Efremov, “Experimental study of spall strength of silicon rubber with microspheres under shock-wave action”, J. Phys.: Conf. Ser., 1556:1 (2020), 012026
Justin Huneault, Andrew J. Higgins, “Shock wave induced cavitation of silicone oils”, Journal of Applied Physics, 125:24 (2019)
I. A. Bannikova, A. N. Zubareva, A. V. Utkin, “Shock-wave pulse compression and stretching of dodecane and mineral oils”, Tech. Phys., 63:4 (2018), 498–505
Justin Huneault, Jihane Kamil, Andrew Higgins, David Plant, AIP Conference Proceedings, 1979, 2018, 070016
I. A. Bannikova, A. N. Zubareva, A. V. Utkin, S. V. Uvarov, O. B. Naimark, “Metastable states, relaxation mechanisms, and fracture of liquids under severe loading conditions”, Phys Mesomech, 20:4 (2017), 399
Y. Cai, H. A. Wu, S. N. Luo, “Spall strength of liquid copper and accuracy of the acoustic method”, Journal of Applied Physics, 121:10 (2017)
E. B. Zaretsky, “Experimental determination of the dynamic tensile strength of liquid Sn, Pb, and Zn”, Journal of Applied Physics, 120:2 (2016)
I A Bannikova, S V Uvarov, A N Zubareva, A V Utkin, O B Naimark, “Experimental study of mechanical properties of liquids under shock wave loading”, J. Phys.: Conf. Ser., 774 (2016), 012051
S V Uvarov, I A Bannikova, O B Naimark, “Pulse loading of glycerol by electric explosion of wire”, J. Phys.: Conf. Ser., 653 (2015), 012034
A N Zubareva, V A Sosikov, A V Utkin, “Investigation of anomalous compressibility of docosane and cerium under shock-wave action”, J. Phys.: Conf. Ser., 653 (2015), 012035
D. I. Zhukhovitskii, “Molecular dynamics study of nanobubbles in the equilibrium Lennard-Jones fluid”, The Journal of Chemical Physics, 139:16 (2013)
A. V. Utkin, “Effect of material fracture kinetics on the spalling pulse amplitude”, J. Appl. Mech. Tech. Phys., 52:1 (2011), 151–158
A. Yu. Kuksin, G. E. Norman, V. V. Pisarev, V. V. Stegailov, A. V. Yanilkin, “Theory and molecular dynamics modeling of spall fracture in liquids”, Phys. Rev. B, 82:17 (2010)
T T Bazhirov, G E Norman, V V Stegailov, “Cavitation in liquid metals under negative pressures. Molecular dynamics modeling and simulation”, J. Phys.: Condens. Matter, 20:11 (2008), 114113
A. V. Utkin, V. A. Sosikov, “Impulsive tension of ethanol under shock loading”, J. Appl. Mech. Tech. Phys., 46:4 (2005), 481–488