Juan B. Justo scite author profile

The paper analyses the fracture behaviour of several rocks, namely a sandstone, a limestone and two marbles, one of them being a Carrara marble. The experimental program comprises in total 216 fracture specimens, tested in 4-point bending conditions and including specimens with notch radii varying from 0.15 mm up to 15 mm. The notch effect is analysed through the evolution of the apparent fracture toughness and the application of the Theory of Critical Distances.The present study aims to generalize a previous study on a granite and a limestone to a broader range of rocks. The point and line methods of the Theory of the Critical Distances successfully explain the notch effect on the fracture specimens. The value of the critical distance of these rocks is of the order of mm. Finally, the results show a correlation between the microstructural features of the rocks, specifically the grain size, and their critical distances.

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Notch effect and fracture load predictions of rock beams at different temperatures using the Theory of Critical Distances

Justo

Castro

Cicero

2020

International Journal of Rock Mechanics and Mining Sciences

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Energy-based approach for fracture assessment of several rocks containing U-shaped notches through the application of the SED criterion

Justo

Castro

Cicero

2018

International Journal of Rock Mechanics and Mining Sciences

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This work presents an energetic continuum approach for the fracture assessment of rocks containing U-shaped notches and subjected to Mode I loading conditions. Three different methodologies are proposed in this article, all of them based on the premise that brittle failure will occur when the average strain energy density over a certain control area reaches a critical value that only depends on the material, as stated by the Strain Energy Density (SED) criterion.The first method proposed (A) deals with the application of the SED criterion through an expression with a series of already tabulated parameters, which are particularised for the analysed rocks by rational extrapolation. Therefore, this first method avoids the use of numerical analysis. By contrast, the second method (B) aims to obtain numerically the previously extrapolated parameters, and the third method (C) directly relates the strain energy density with the applied load, without the use of those parameters.The research is based on the results obtained from an exhaustive experimental programme comprising 300 fracture specimens tested in four-point bending conditions. These tests combine parallelepiped samples made of 6 different types of rocks (two marbles, two limestones, a sandstone and a granite) and containing 8 different notch radii (varying from 0.15 mm up to 15 mm).Thus, this work aims to show the potential, capacity and limitations of the SED criterion in rock fracture analyses, comparing with this purpose the experimentally obtained fracture loads and those predicted by the three proposed methodologies.

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Mechanical properties of 4 rocks at different temperatures and fracture assessment using the strain energy density criterion

Justo

Castro

2021

Geomechanics for Energy and the Environment

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Topology Optimization of Potential and Elasticity Problems Using Boundary Elements

Cisilino¹,

Justo²,

Bertsch³

et al. 2008

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Juan B. Justo

Notch effect on the fracture of several rocks: Application of the Theory of Critical Distances

Notch effect and fracture load predictions of rock beams at different temperatures using the Theory of Critical Distances

Energy-based approach for fracture assessment of several rocks containing U-shaped notches through the application of the SED criterion

Mechanical properties of 4 rocks at different temperatures and fracture assessment using the strain energy density criterion

Topology Optimization of Potential and Elasticity Problems Using Boundary Elements

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