The technique of explosive compaction of metal powder is promising for development of advanced materials because of its qnigue capability of obtaining high temperature and high pressure in a moment.

Explosive compaction processing is applied to prepare Nd-Fe-B magnets with melt-spun powders.

The magnetic domain structures of Nd Fe B alloys prepared by the two techniques of powder metallurgy and explosive compaction were also studied using the MFM technique.

Removal of Overlarge Explosion Pressure for Large-Sized Flame-Proof Motor by New Material;

The results show that both the explosion pressure and the rising rate of explosion pressure increase with the decreasing of the size of aluminum particles.

The present paper is aimed at reporting its research findings over the effect characteristic of the ignition energy on the brisance of the polynary mixed explosive gas and the effect of the energy on the explosion pressure of liquefied petro-gas through a gas explosion characteristic parameter testing system.

Effect of the process parameters on energy and deformation of the steel tubes during explosive compaction;

Relationships of explosive press and powder density during explosive compaction;

Study on the relationship between compact density and compaction energy of CuCr alloys by explosive compaction;

Friction and heat conduction of nanometer ceramic particles in cold explosive consolidation

In explosive consolidation of nano-powders,the duration in which the loading changed markedly on nano-particles by shock wave is far longer than the time of stress wave propagating through the character length of the particles;and the ceramic powders behave brittleness during explosive shock consolidation.

The explosive consolidation of metal powders has been studied in this paper from both experimental and theoretical aspects.

In this paper,based on the analysis of the characteristics of gas explosion overpressure in pipe,the ME model is used to predict the overpressure in pipe.

In this paper, the flame accelerating induced by vertical baffleobstacle and its effect on explosion overpressure have been experimentally studied in a selfdeveloped horizontal FAT (flame acceleration tube), using 93% methaneair mixture.

Described are explosive fracturing, explosive cutting, well cleaning, perforating tubing, workover, casing repair, etc.

The explosive fracturing was tested in house in order to solve problem of formation compact caused by smash area around the wellbore resulting from explosive fracturing.