Publication detail

Fracture in random quasibrittle media: I. Discrete mesoscale simulations of load capacity and fracture process zone

ELIÁŠ, J. VOŘECHOVSKÝ, M.

Original Title

Fracture in random quasibrittle media: I. Discrete mesoscale simulations of load capacity and fracture process zone

Type

journal article in Web of Science

Language

English

Original Abstract

Numerical simulations of concrete fracture performed with a probabilistic mesoscale discrete model are presented. The model represents a substantial part of material randomness by assigning random locations to the largest aggregates. The remaining part of randomness is introduced by causing material parameters to fluctuate randomly via a homogeneous random field. An extensive numerical study performed with the model considers prisms loaded in uniaxial tension with both fixed and rotating platens, and also beams with and without a notch loaded in three point bending. The results show the nontrivial effect of (i) autocorrelation length and (ii) variance of the random field on the fracture behavior of the model. Statistics of the peak load are presented as well as the size and shape of the fracture process zone at the moment when the maximum load is attained. Local averaging within the fracture process zone and weakest-link are identified as underlying mechanisms explaining the reported results. The companion paper, Part II (Vořechovský and Eliáš, 2020), introduces an analytical model capable of predicting the distribution of the peak load obtained with the probabilistic discrete model via the simple estimation of extremes of a random field obtained as moving average of local strength.

Keywords

Discrete model; Mesoscale; Concrete; Probability; Random field; Fracture; Fracture process zone

Authors

ELIÁŠ, J.; VOŘECHOVSKÝ, M.

Released

1. 8. 2020

Publisher

Elsevier

ISBN

0013-7944

Periodical

Engineering Fracture Mechanics

Year of study

235

Number

1

State

United Kingdom of Great Britain and Northern Ireland

Pages from

107160-1

Pages to

107160-23

Pages count

23

URL