August Toepler — The first who visualized shock waves P. KrehlS. Engemann OriginalPaper Pages: 1 - 18
Destruction of mouse lymphoma cells with high pressure pulses generated by a diaphragmless shock tube Tomohide HosokawaManabu YamamotoKoji Teshima OriginalPaper Pages: 19 - 23
One-dimensional shock wave interaction with rubber and low-porosity foam M. YasuharaK. KitagawaS. Watanabe OriginalPaper Pages: 25 - 32
Numerical investigation of inviscid shock wave dynamics in an expansion tube Keun-Shik ChangJong-Kwan Kim OriginalPaper Pages: 33 - 45
Reignition of detonations by reflected shocks D. A. JonesM. SichelE. S. Oran OriginalPaper Pages: 47 - 57
Reconsideration of pseudo-steady shock wave reflections and the transition criteria between them H. LiG. Ben-Dor OriginalPaper Pages: 59 - 73
Direct Riemann solvers for the time-dependent Euler equations E. F. Toro OriginalPaper Pages: 75 - 80
A global simulation method for obtaining reduced reaction mechanisms for use in reactive blast wave flows Boyuan JiangDavid IngramRobert Saunders OriginalPaper Pages: 81 - 88
Influence of mixture sensitivity and pore size on detonation velocities in porous media A. MakrisH. ShafiqueR. Knystautas OriginalPaper Pages: 89 - 95
Dynamics of oblique detonations in ram accelerators Chiping LiK. KailasanathJ. P. Boris OriginalPaper Pages: 97 - 101
Combustion tube studies of dust flame acceleration Yi-kang PuShan HuJózef Jarosiński OriginalPaper Pages: 103 - 108
Large scale grain dust explosions-research in Poland K. LebeckiK. CybulskiP. Wolański OriginalPaper Pages: 109 - 114
Propagation of nitromethane detonations in porous media J. J. LeeD. L. FrostA. Dremin OriginalPaper Pages: 115 - 119
An experimental study of temperature structure of shock relaxation in air-dusty explosive media S. YangR. HuangQ. Fan Technical Note Pages: 121 - 123