Reliability-based design load factors for explosive blast loading

Stewart, Mark G.; Netherton, Michael D.

Title: Reliability-based design load factors for explosive blast loading
Creator: Stewart, Mark G.; Netherton, Michael D.
Relation: ARC.DP110101397
Relation: Journal of Performance of Constructed Facilities Vol. 29, Issue 5
Publisher Link: http://dx.doi.org/10.1061/(ASCE)CF.1943-5509.0000709
Publisher: American Society of Civil Engineers
Resource Type: journal article
Date: 2015
Description: Reliability-based design allows the decision maker to select the level of reliability for a specific blast loading scenario and key to this is an understanding of airblast uncertainty. Hence, explosive field trials have been conducted in Australia that measured the variability of free-field blast loading caused by military standard plastic explosives. The results have revealed a high level of variability of peak incident pressure, impulse, and time of positive phase duration for repeatable tests where variability would be expected to be a minimum. The accuracy of predictive blast load models (model error) was also assessed. A probabilistic blast load computer model is revised to capture these observed variabilities. The effect of a 20% mass-increase safety factor typically applied to explosive mass on the probability of exceeding a design blast load is assessed. Reliability-based load factors are calculated where the nominal load is multiplied by the load factor to ensure that the actual load is equal to the reliability level. Reliability-based load factors are estimated for reliability levels of 0.05-0.99, for a range of scaled distances for military munitions. The load factor can be as low as 0.66 for a 0.05 reliability level and as high as 1.30 for a 0.99 reliability level.
Subject: reliability-based design; blast loading; airblast; explosive field trials
Identifier: http://hdl.handle.net/1959.13/1330328
Identifier: uon:26355
Identifier: ISSN:0887-3828
Language: eng
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