Structural design deeply involves material strengths, which are obviously affected by uncertainty. As far as the material “concrete” is concerned, building codes (Italian codes, Eurocodes, ACI regulations) typically state that it should be identified and classified by means of its conventional characteristic uniaxial compressive cubic strength at 28 days. Although the fundamental importance of the problem of the evaluation of the characteristic compressive strength of concrete in structural design, the statistical analysis geared to identify an accurate probabilistic model of the concrete strength has not been a central issue of the research works in the field for many years. This paper describes the results of an investigation performed to obtain the compressive strength statistic characteristics of a production of about half a million cubic meters of concrete. The results obtained indicate that the statistical distribution that best captures the characteristics of the available experimental data is the Shifted Lognormal.
Gasparini G., Silvestri S., Trombetti T., Ceccoli C. (2009). Statistical Analysis Towards The Identification Of Accurate Probability Distribution Models For The Compressive Strength of Concrete. OSAKA : H. Furuta, D. M. Frangopol, M.Shinozuka.
Statistical Analysis Towards The Identification Of Accurate Probability Distribution Models For The Compressive Strength of Concrete
GASPARINI, GIADA;SILVESTRI, STEFANO;TROMBETTI, TOMASO;CECCOLI, CLAUDIO
2009
Abstract
Structural design deeply involves material strengths, which are obviously affected by uncertainty. As far as the material “concrete” is concerned, building codes (Italian codes, Eurocodes, ACI regulations) typically state that it should be identified and classified by means of its conventional characteristic uniaxial compressive cubic strength at 28 days. Although the fundamental importance of the problem of the evaluation of the characteristic compressive strength of concrete in structural design, the statistical analysis geared to identify an accurate probabilistic model of the concrete strength has not been a central issue of the research works in the field for many years. This paper describes the results of an investigation performed to obtain the compressive strength statistic characteristics of a production of about half a million cubic meters of concrete. The results obtained indicate that the statistical distribution that best captures the characteristics of the available experimental data is the Shifted Lognormal.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
