Peak overpressure and impulse due to diffraction over a cylinder and/or multi-reflection of a shock wave in structural design- Part I

Hahn, Andreas; Mensinger, Martin; Rutner, Marcus

doi:10.1177/2041419620918883

Cited by 8 publications

(10 citation statements)

References 42 publications

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“…Table 3 displays the input parameters that were considered, sub-divided into 5 groups, A through E. These combinations have been carefully selected to cover a wide spread of blast wave properties such as overpressure, specific impulse, positive phase duration, and importantly, the shock wave velocity, which has a direct effect on the formation of vortices in the disturbed wake region (Hahn et al, 2021; Niollet et al, 2015; Ritzel et al, 2018). Group E has been included for comparing the effect of each of the cylinder sizes under consideration (in groups A–D) for a given blast wave intensity and obstruction ratio.…”

Section: Numerical Methodologymentioning

confidence: 99%

“…Therefore, mitigating a blast wave by means of wave interactions described previously may also be evaluated reliably using numerical simulations. Hahn et al (2021) numerically characterized the pressure and impulse changes downstream of a blast wave-circular pole interaction. The explosive charge masses were varied to generate a range of scaled stand-off distances.…”

Section: Literature Reviewmentioning

confidence: 99%

“…Hahn et al (2021) numerically characterized the pressure and impulse changes downstream of a blast wave-circular pole interaction. The explosive charge masses were varied to generate a range of scaled stand-off distances.…”

Section: Literature Review and Theoretical Considerationsmentioning

confidence: 99%

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Mitigation of blast loading through blast–obstacle interaction

Alshammari

Isaac

Clarke

et al. 2022

International Journal of Protective Structures

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Obstructing the passage of blast waves is an effective method of mitigating blast pressures downstream of the obstacle. To this end, the interaction between a blast wave and a simplified structural shape, such as a cylinder, has been widely investigated to understand the complex flow pattern that ensues around the obstacle. The patterns include the interference zones of the incident wave, the diffracted wave, and other secondary waves in the downstream region. Such zones are responsible for causing significant modifications to the blast wave parameters. This research aims to identify and study the factors that serve to mitigate the resulting blast loads downstream of a cylindrical obstacle – both on the ground, and on a rigid wall target that the obstacle is aiming to protect. Inputs from this numerical study are also used to develop a fast-running predictive method based on an artificial neural network (ANN) model. It was found that the size of the cylinder, the strength of the blast wave, the position of the cylindrical obstruction, and the target length, all have remarkable effects on the development of the complex flow-field downstream, and on the impulse mitigation on a reflective target. A number of key mitigation mechanisms are identified, namely shadowing and interference, and their origins and significance are discussed. An ANN model trained using scaled input parameters could successfully predict impulse values on such a reflective target. Using this model to predict the response of previously unseen configurations (for the ANN) gave excellent correlation, thereby demonstrating the high fidelity of this fast-running tool, and its ability to predict the effectiveness of various wave-cylinder interactions in mitigating blast loading.

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Section: Numerical Methodologymentioning

confidence: 99%

Section: Literature Reviewmentioning

confidence: 99%

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Mitigation of blast loading through blast–obstacle interaction

Alshammari

Isaac

Clarke

et al. 2022

International Journal of Protective Structures

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“…Therefore, when the distance between the outflow boundary and the charge is greater than 100 mm, the outflow boundary on one side of the charge does not significantly affect pressure distribution on the other side. Previous study has shown that the influence of outflow boundaries was found to only extend 10-20 elements (Hahn et al, 2020). Subsequent numerical models far exceed these requirements.…”

Section: Numerical Modelmentioning

confidence: 98%

“…For bomb attacks in urban environments, blast loads on structures depend on the geometric shape of structures and blast waves. Previous studies on blast loads mostly focus on spherical charges and flat targets, some design manuals give blast loads on the surface of cuboids (Baker, 1973; Defense, 2008; Henrych and Abrahamson, 1980; Hyde, 1991; Kingery and Bulmash, 1984), a probabilistic blast load model for domes has been proposed based on extensive tests (Qi et al, 2020; Zhi et al, 2019), detailed experimental data on blast loads of cylindrical structures for direct verification of numerical models are not available (Hahn et al, 2020; Kristoffersen et al, 2021; Qasrawi et al, 2015).…”

Section: Introductionmentioning

confidence: 99%

Experimental and simulation study on blast loads of cylindrical Shells

Wei

Zheng

Yang

et al. 2022

Advances in Structural Engineering

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Public buildings that house large populations are easy targets for terrorist attacks, the primary issue of architectural blast-resistant design is how to get blast loads on the surface of structures, and the shapes of blast waves and buildings both have important effects on it. In this paper, experiments and numerical simulations were carried out on blast loads on the surface of the cylindrical shell. blast loads, detonation products, and blast waves were well recorded and simulated, blast loads at the edge of cylindrical shells were attenuated by about 75%, and vortex rings were accidentally photographed nearby. blast loads are much affected by the location of the detonation point, charge shape, and charge size. The original shape of structures rather than deformation determines the distribution of blast loads, the air viscosity also needs to be scaled when using a scaled model to test blast loads. Experimental and simulation methods can offer a reference for building a standard database of blast loads.

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Verknüpfung von Nano mit Makro – Chancen für den Stahlbau

Rutner,

Spalek,

Falah

et al. 2024

Stahlbau

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Nanostrukturierte metallische Multilayer weisen eine wesentlich höhere Festigkeit, Ermüdungsfestigkeit und Duktilität als monolithische homogene Metallquerschnitte auf. Die überragenden strukturellen Eigenschaften nanostrukturierter Querschnitte sind bekannt, und so ist verwunderlich, warum bis heute kein Versuch unternommen wurde, nanostrukturierte Querschnitte in Makroquerschnitten im Konstruktiven Ingenieurbau zur Verbesserung der Querschnittseigenschaften einzusetzen. Dieser Aufsatz verknüpft die Vorteile der nanostrukturierten Multilayer mit den Bedürfnissen der homogenen metallischen Makroquerschnitte und geht der Frage nach, inwieweit das Hochleistungsmaterial Nanolaminat die konstruktiven Schwachstellen metallischer Infrastruktur ausgleichen kann. Die folgenden Schwachstellen der metallischen Konstruktion werden adressiert: 1) die Schweißnaht unter Ermüdungsbeanspruchung und Korrosion, 2) additiv gedruckte metallische Querschnitte unter Ermüdungsbeanspruchung und Korrosion. Der Aufsatz gibt Denkanstöße, wie nanostrukturierte Querschnitte möglicherweise die Zukunft im Stahlbau mitbestimmen können. Beispielhaft wird auf die Bemessung und Wartung von ermüdungsbeanspruchten metallischen Infrastrukturbauwerken, wie Brücken und Offshore‐Windenergieanlagen, eingegangen und aufgezeigt, wie Nachhaltigkeit, Ressourcenschonung, Senkung des CO2‐Fußabdrucks, Verfügbarkeit, Versorgungssicherheit und Wirtschaftlichkeit von Stahl‐Infrastrukturbauwerken potenziell erreichbar sind.

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Peak overpressure and impulse due to diffraction over a cylinder and/or multi-reflection of a shock wave in structural design- Part I

Cited by 8 publications

References 42 publications

Mitigation of blast loading through blast–obstacle interaction

Mitigation of blast loading through blast–obstacle interaction

Experimental and simulation study on blast loads of cylindrical Shells

Verknüpfung von Nano mit Makro – Chancen für den Stahlbau

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