Crystallite size has an important effect on the chemical, physical and mechanical properties
of metallic, polymeric, and ceramic nanomaterial. Therefore, finding a reliable method to …

In this review we detail the expansion of laser-induced shock waves into the air following
nanosecond-pulsed laser ablation of energetic materials for comparison of the microsecond …

During high energy ball milling, nano-reinforcements can be gradually dispersed in metal
powders with the severe plastic deformation of metal powder particles. However, prolonged …

The combination of electrical wire explosion and low sensitivity energetic materials (EMs) is
an efficient and practical method to generate controllable strong pressure waves (PWs) …

In this work, Si particles of varying sizes and a bulk Si wafer are exposed to high-energy
nanosecond-pulsed laser excitation. The subsequent laser-induced plasma is characterized …

Agglomeration is the most common phenomenon in synthesizing nanopowders, which
strictly reduces the quality of the products. In the present study, a non-agglomerated iron …

Numerical simulation of interaction of heterogeneous detonation wave (DW) with a porous
insert occupied whole channel and part of channel was carried out. Main regimes and …

The reaction kinetic characteristics of two different particle sizes of titanium powder under
different heating rates are studied by the synchronous thermal analysis. The initial reaction …

We used nanosecond laser pulses to excite various aluminum (Al) powders under an
extremely fast heating rate (10 13 K/s). Our interest lies in three timescales: early (1–10 μs) …

In order to provide a theoretical basis for verifying the feasibility of partially replacement from
the peanut shell to aluminum powder in the rock-breaking incendiary agent, its …