Explosive damage to industrial buildings: Assessment by resampling limited experimental data on blast loading

Egidijus Rytas Vaidogas

doi:10.3846/13923730.2005.9636356

Journal of Civil Engineering and Management (Dec 2005)

Explosive damage to industrial buildings: Assessment by resampling limited experimental data on blast loading

Egidijus Rytas Vaidogas

Affiliations

Egidijus Rytas Vaidogas: Dept of Reinforced Concrete Structures , Vilnius Gediminas Technical University , Sauletekio al. 11, Vilnius, LTâ€10223, Lithuania

DOI: https://doi.org/10.3846/13923730.2005.9636356
Journal volume & issue: Vol. 11, no. 4

Abstract

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Assessment of damage to industrial buildings due to accidental explosions in air is considered. It is suggested to formulate the result of the damage assessment in the form of risk. The expression of risk embraces probabilities of foreseeable damage events (damage probabilities) and outcomes (consequences) of suffering these events. The situation is examined when blast loading imposed by an accidental explosion is predicted by a series of experiments. They yield a smallâ€size sample of blast loading characteristics. It is suggested to idealise the formation of explosive damage to industrial buildings by means of event trees diagrams. A quantitative analysis of these diagrams can be carried out by developing fragility functions for their branching points. Each branching point is used to represent a structural failure contributing to the final explosive damage. The fragility functions are applied to expressing the conditional probabilities of explosive damage. With these probabilities, a technique of frequentist (Fisherian) inference is applied to assessing the explosive damage. This technique is called statistical resampling (Efron's bootstrap) and applied as a practical, albeit not equivalent alternative to the Bayesian approaches. It is shown that statistical resampling is capable to yield confidence intervals of damage probabilities and can be applied almost automatically. It operates without using cumbersome methods of statistical inference developed in the classical statistics. The bootstrap confidence intervals do not contain any subjective information except the degree of confidence for which these intervals are computed. The degree of confidence must be chosen by the engineer. The bootstrap confidence intervals are applied to estimating damage probabilities on the basis of the smallâ€size sample of blast loading characteristics. An estimate of the risk of explosive damage is expressed as a set of bootstrap confidence intervals computed for damage probabilities and related outcomes of this damage. SprogimÅ³ sukeliamÅ³ pramoniniÅ³ pastatÅ³ paÅ¾aidÅ³ vertinimas atliekant kartotinÄ¯ ribotÅ³ eksperimentiniÅ³ duomenÅ³ apie sprogimÅ³ apkrovas Ä—mimÄ… Santrauka PramoniniÅ³ pastatÅ³ paÅ¾aidÅ³, kurios gali bÅ«ti sukeltos avariniÅ³ (atsitiktiniÅ³) sprogimÅ³, vertinimÄ… siÅ«loma formuluoti rizikos skaiÄiavimo uÅ¾davinio pavidalu. Å i rizika aprÄ—pia nuspÄ—jamÅ³ atsitiktiniÅ³ paÅ¾aidÅ³ Ä¯vykiÅ³ tikimybes (paÅ¾aidÅ³ tikimybes) ir padarinius, kurie gali bÅ«ti patirti, pasireiÅ¡kus Å¡iems Ä¯vykiams. NagrinÄ—jamas atvejis, kai paÅ¾aidas reikia prognozuoti atliekant nedidelÄ¯ skaiÄiÅ³ kartotiniÅ³ eksperimentÅ³ ir gaunant santykinai maÅ¾Ä… statistinÄ™ sprogimo apkrovÅ³ imtÄ¯. PaÅ¾aidas siÅ«loma vertinti idealizuojant jÅ³ kilimo procesÄ… naudojant Ä¯vykiÅ³ medÅ¾io diagramas. Teigiama, kad skaiÄiuoti galima kiekvienam diagramos iÅ¡siÅ¡akojimui sudarant paÅ¾eidÅ¾iamumo funkcijas. Kiekvienas iÅ¡siÅ¡akojimas turi vaizduoti konkreÄiÄ… paÅ¾aidÄ…. PaÅ¾eidÅ¾iamumo funkcijos taikomos sÄ…lyginÄ—ms paÅ¾aidÅ³ tikimybÄ—ms iÅ¡reikÅ¡ti. Ä®vertinus Å¡ias tikimybes, besÄ…lygines paÅ¾aidÅ³ tikimybes siÅ«loma vertinti kartotinio statistinio Ä—mimo metodu. Jis laikomas vertinimo, pagrÄ¯sto BÄ—jeso statistinÄ—s teorijos metodais, alternatyva. Kartotinis statistinis Ä—mimas leidÅ¾ia skaiÄiuoti besÄ…lyginiu paÅ¾aidÅ³ tikimybiÅ³ pasikliautinuosius intervalus. Taikant Å¡Ä¯ metodÄ…, galima iÅ¡vengti sudÄ—tingÅ³ klasikinÄ—s matematines statistikos procedÅ«rÅ³ taikymo. SkaiÄiuojant pasikliautinuosius intervalus kartotinio statistinio Ä—mimo bÅ«du iÅ¡vengiama subjektyvios informacijos. InÅ¾inieriui tereikia priimti subjektyvÅ³ sprendimÄ…, kokÄ¯ pasikliautinumo lygmenÄ¯ naudoti skaiÄiuojant pasikliautinuosius intervalus. Parodyta, kad Å¡iuos intervalus galima skaiÄiuoti net kai statistinÄ— sprogimo apkrovÅ³ imtis yra maÅ¾a. SprogimÅ³ sukeliamÄ… rizikÄ… siÅ«loma iÅ¡reikÅ¡ti pasikliautinaisiais paÅ¾aidÅ³ tikimybiÅ³ intervalais. ReikÅ¡miniai Å¾odÅ¾iai: plokÅ¡tÄ—, apdaras, sprogimas, paÅ¾aida, impulsinÄ— apkrova, kartotinis statistinis Ä—mimas, stochastinis modeliavimas, paÅ¾eidÅ¾iamumo funkcija. First Published Online: 14 Oct 2010

Published in Journal of Civil Engineering and Management

ISSN: 1392-3730 (Print); 1822-3605 (Online)
Publisher: Vilnius Gediminas Technical University
Country of publisher: Lithuania
LCC subjects: Technology: Building construction
Website: https://journals.vilniustech.lt/index.php/JCEM

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