Experimental investigation of blast mitigation of pre-fractal obstacles

Isaac, Obed Samuelraj; Alshammari, Omar Ghareeb; Clarke, Steve; Rigby, S.E.

doi:10.1177/20414196221144066

Cited by 3 publications

(1 citation statement)

References 43 publications

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“…It has been shown that single obstacles [82] and an array of multi-scale (pre-fractal) obstacles [83] can lead to considerable blast wave attenuation through shock disruption and vortex shedding. Up to 14% and 26% reductions in loading were seen for the single and multiple obstacles, respectively.…”

Section: Alternative Protective Methodsmentioning

confidence: 99%

A Review of Blast Loading in the Urban Environment

et al. 2023

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Urban blasts have become a significant concern in recent years. Whilst free-field blasts are well understood, the introduction of an urban setting (or any complex geometry) gives rise to multiple blast wave interactions and unique flow complexities, significantly increasing the difficulty of loading predictions. This review identifies commonly agreed-upon concepts or behaviours that are utilised to describe urban shock wave propagation, such as channelling and shielding, in conjunction with exploring urban characterisation metrics that aim to predict the effects on global blast loading for an urban blast. Likewise, discrepancies and contradictions are highlighted to promote key areas that require further work and clarification. Multiple numerical modelling programmes are acknowledged to showcase their ability to act as a means of validation and a preliminary testing tool. The findings contained within this review aim to inform future research decisions and topics better.

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Section: Alternative Protective Methodsmentioning

confidence: 99%

A Review of Blast Loading in the Urban Environment

et al. 2023

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Development of bio-inspired blast mitigation steel systems

Lotfy,

Ezzeldin

2024

Journal of Constructional Steel Research

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Numerical modelling of blast mitigation of pre-fractal obstacles

Alshammari,

Isaac,

Clarke

et al. 2023

International Journal of Protective Structures

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The mechanics of downstream blast wave attenuation caused by interaction with obstacles arranged into a pre-fractal shape based on the Sierpinski carpet was numerically investigated using a high-fidelity CFD solver. The blast mitigation was qualitatively and quantitatively assessed for four pre-fractal iterations at three different scaled distances ( Z = 1.87, 2.24, 2.99 m/kg1/3). Mitigation was seen to occur in zones associated with the location of destructive wave interference patterns in the downstream region. Crucially, these zones were found to widen spatially with increasing pre-fractal iteration, and strong shock-shock interactions that result in load amplification, commonly encountered in downstream regions of a solitary block-like obstacle, were not observed for the more fractal-like obstacles. The mechanisms of attenuation are explored in terms of wave impedance. It is found that pre-fractals reduce wave transmission in the downstream, increase reflection of the blast wave, and enhance trapping within the confines of the pre-fractal obstacle, dramatically changing the directionality and hence the strength of the transmitted wave. Reductions in peak pressure of up to 60% and peak specific impulse of up to 40% were recorded for the highest iteration pre-fractal, that is, obstacles that most closely represent a true fractal, thereby highlighting the effectiveness of such shapes for protective structure design for improved blast mitigation.

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Experimental investigation of blast mitigation of pre-fractal obstacles

Cited by 3 publications

References 43 publications

A Review of Blast Loading in the Urban Environment

A Review of Blast Loading in the Urban Environment

Development of bio-inspired blast mitigation steel systems

Numerical modelling of blast mitigation of pre-fractal obstacles

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