The Breaking of Brittle Materials

Abstract: We present a unified theory of fracture in disordered brittle media that reconciles apparently conflicting results reported in the literature. Our renormalization group based approach yields a phase diagram in which the percolation fixed point, expected for infinite disorder, is unstable for finite disorder and flows to a zero-disorder nucleation-type fixed point, thus showing that fracture has a mixed first order and continuous character. In a region of intermediate disorder and finite system sizes, we predic… Show more

“…High-strength glasses are available (Varshneya, 2010;Wondraczek et al, 2011); however, even with chemical strengthening, they are still below the theoretical strength aimed for in defect-free conditions (Mattos, 2013). To approach the theoretical limit, understanding crack formation (Wiederhorn et al, 2013) and fracture behavior (Quinn, 2012;Bouchaud, 2013) is necessary. Further research should also aim to improve the ductility and fracture toughness of glass (Shi et al, 2014), which are intimately connected to the Poisson's ratio of the material (Greaves et al, 2011).…”

Grand Challenges in Glass Science

“…High-strength glasses are available (Varshneya, 2010;Wondraczek et al, 2011); however, even with chemical strengthening, they are still below the theoretical strength aimed for in defect-free conditions (Mattos, 2013). To approach the theoretical limit, understanding crack formation (Wiederhorn et al, 2013) and fracture behavior (Quinn, 2012;Bouchaud, 2013) is necessary. Further research should also aim to improve the ductility and fracture toughness of glass (Shi et al, 2014), which are intimately connected to the Poisson's ratio of the material (Greaves et al, 2011).…”

Grand Challenges in Glass Science

“…Illustration of the fiber‐microcrack interaction using a micromechanics model . From left to right: Representative elementary volume, single fiber (black) bridging a microcrack (white), slip strain S(y) at the fiber‐matrix interface, stress equilibrium at fiber scale…”

“…While a fracture mechanics based analysis can help in the design of fatigue tolerant high performance FRC, it does not provide insight into the role of disorder on the microscale level of heterogeneous materials such as concrete. Introducing disorder into a homogeneous material has important consequences on the stress that the material can withstand before loss of material integrity . One approach to account for the mechanics of disorder is to introduce a certain strength distribution into a homogeneous solid.…”

Fatigue behavior of HPC and FRC under cyclic tensile loading: Experiments and modeling