On characteristic parameters involved in dynamic fragmentation processes

Abstract: Dynamic loadings produce high stress waves leading to the fragmentation of brittle materials such as ceramics, concrete, glass, and rocks, or ductile materials such as steels and alloys. The main mechanism used herein to explain the change of the number of fragments with strain and stress rates is an obscuration (or shielding) phenomenon associated with cracking or cavitation.A probabilistic framework, which is based upon a Poisson point process, is introduced. Nonlocal (in space and time) expressions are obta… Show more

“…Under dynamic loading conditions, brittle solids fail by exhibiting a multiple fracturing phenomenon with a transition from a probabilistic failure, such as in the case of a single quasi-static crack, towards the deterministic failure where many cracks initiate and propagate at the same time [1,2]. On a microscale, the cracks initiate from inherent flaws and grow to eventually coalesce and form macrocracks.…”

Ultra-high speed X-ray imaging of dynamic fracturing in cementitious materials under impact

“…Under dynamic loading conditions, brittle solids fail by exhibiting a multiple fracturing phenomenon with a transition from a probabilistic failure, such as in the case of a single quasi-static crack, towards the deterministic failure where many cracks initiate and propagate at the same time [1,2]. On a microscale, the cracks initiate from inherent flaws and grow to eventually coalesce and form macrocracks.…”

Ultra-high speed X-ray imaging of dynamic fracturing in cementitious materials under impact

Experimental investigation on brittleness characteristics of rock based on the ubiquitiformal complexity: strain rate effect and size effect

Dynamic properties and fragmentation fractal characteristics of water-saturated reef limestone concrete under impact loading