@article{0323b333ce41489b9e81e912fc39f96e,
title = "Fracture Mechanics Modelling of an In Situ Concrete Spalling Experiment",
keywords = "compressive failure, fracture mechanics, in situ experiment, nuclear waste disposal, numerical modelling, rock anisotropy, shotcrete, spalling, sprayed concrete, thermal spalling, compressive failure, fracture mechanics, in situ experiment, nuclear waste disposal, numerical modelling, rock anisotropy, shotcrete, spalling, sprayed concrete, thermal spalling, compressive failure, fracture mechanics, in situ experiment, nuclear waste disposal, numerical modelling, rock anisotropy, shotcrete, spalling, sprayed concrete, thermal spalling",
author = "Topias Siren and Lauri Uotinen and Mikael Rinne and Baotang Shen",
note = "VK: T20703",
year = "2015",
doi = "10.1007/s00603-014-0646-1",
language = "English",
volume = "48",
pages = "1423--1438",
journal = "Rock Mechanics and Rock Engineering",
issn = "0723-2632",
publisher = "Springer",
number = "4",
}