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Barros Ana M.G.,
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Communications on Pure and Applied Mathematics. 2009 62(6). p.789
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Fox-Hughes P.,
Bridge C.,
Faggian N.,
Jolly C.,
Matthews S.,
Ebert E.,
Jacobs H.,
Brown B., Bally J.
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Plourde F.,
Doan-Kim S.,
Dumas J.C., Malet J.C.
Fire Safety Journal. 1997 29(4). p.283
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Vakalis D,
Sarimveis H,
Kiranoudis C,
Alexandridis A, Bafas G
Applied Mathematical Modelling. 2004 28(4). p.389
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Collins L.,
Price O.F.,
Bradstock R.A.,
Metcalf S., Chong D.M.O.
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