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A perspective of shock waves: with examples in aerodynamics and
Analytic Solutions and Constitutive Relations for Shock
Shock Loading and Unloading Experiments on Thermally-Sprayed
Shock, Ballistic and Blast Properties of Granular Materials.
(PDF) Shock and blast waves mitigation Abdellah Hadjadj
Shock loading and unloading experiments on thermally-sprayed porous probing the shock loading of porous and granular materials.
Under shock compression, most porous materials exhibit lower densities for a given pressure than that of a full-dense sample of the same material.
The shock/boundary-layer interaction (sbli) phenomena has been.
The study on the interaction between shock waves and porous/granular materials has grown quite intensively in the past two decades due to the possible civil and military applications. For example, impulse cleaning system was developed in order to unblock a blockage in pipe systems and silos.
1990 introduction to modeling of transport phenomena in porous interaction between an air shock wave and a porous.
Shock waves are a well-known phenomenon in aerodynamics, which can be by savage a few decades ago, the study of the granular shock phenomena only.
Particle and shock speeds but does not explain the phenomenon of unloading. Derek raybould (1981) constructed the eos based on quasi-static pressure-.
We used molecular dynamics simulations to study the shock propagation, dynamics simulations of shock loading of nearly fully dense granular ni–al composites higher strength and lower reactivity than the mixtures with certain poro.
The pressure upon the reflection of the incident shock wave off a rigid wall suggesting that the stress wave transmitting through the foam decelerates as it moves within the foam. Britan and ben-dor [28] conducted a series of experi-ments on different types of granular materials where pres-sures in front, behind, and within the granular.
Shock phenomena in granular and porous materials subject: cham, springer, 2019 keywords: signatur des originals (print): t 19 b 4010.
The analysis of large-scale explosively generated shock waves may also aid the engineer in quickly assessing air-blasts propagation and their interaction with the surrounding environment (air, dust, granular, liquid or porous media). Interms of blast mitigation, different type of protective layers can absorb energy either by plastic deformation or by buckling.
In physics, a shock wave (also spelled shockwave), or shock, is a type of propagating disturbance that moves faster than the local speed of sound in the medium. Like an ordinary wave, a shock wave carries energy and can propagate through a medium but is characterized by an abrupt, nearly discontinuous, change in pressure, temperature, and density of the medium.
Shock waves are a typical phenomenon in gas dynamics, and can be commonly observed when a supersonic flow moves around obstacles.
Granular forms of common materials such as metals and ceramics, sands and soils, porous energetic materials (explosives, reactive mixtures), and foams exhibit.
9 nov 2020 at lengths of the porous block greater than the extent of the shock wave, foamy, granular, and bulk-density systems makes the propagation.
Under extreme conditions of impact, granular and porous materials display highly localized phenomena such as fracture, inelastic deformation, and the closure of voids, which in turn strongly influence the bulk response.
Summary the present work deals with steady shock waves propagation in porous media containing a homogeneous population of voids.
The shock-to-detonation transitional process in porous granular explosives is dependent upon an energy release from chemical reactions which occur at small hot spots nucleated after the passage of the shock front.
His main areas of interest are the interaction of shock waves with porous and granular materials, transport phenomena in multiphase media, pneumatic conveying, drying and mass momentum and heat transfer.
Analytic solutions offer instructive insight into the phenomena of shock propagation in porous media and allow scaling of the governing equations to identify the prevailing material and boundary properties. Here the solution methods of kompaneets have been extended to include specific compaction models.
Shock phenomena in granular and porous materials book review: granular forms of common materials such as metals and ceramics, sands and soils, porous energetic materials (explosives, reactive mixtures), and foams exhibit interesting behaviors due to their heterogeneity and critical length scale, typically commensurate with the grain or pore size.
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