V
Vincent Picandet
Researcher at University of Southern Brittany
Publications - 47
Citations - 1545
Vincent Picandet is an academic researcher from University of Southern Brittany. The author has contributed to research in topics: Permeability (earth sciences) & Nonlinear system. The author has an hindex of 19, co-authored 47 publications receiving 1244 citations. Previous affiliations of Vincent Picandet include European University of Brittany & Centre national de la recherche scientifique.
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Effect of axial compressive damage on gas permeability of ordinary and high-performance concrete
TL;DR: In this article, the effect of axial compressive loading on the permeability of three different types of concrete: ordinary concrete (OC), high performance concrete (HPC), and high performance steel fiber-reinforced concrete (HPFC) was examined experimentally.
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Crack Effects on Gas and Water Permeability of Concretes
TL;DR: In this paper, the relationship between load-induced cracking and concrete permeability is studied and the roughness parameter of the cracks induced in each concrete, is compared and discussed, and the results suggest that it increases proportionally to the cube of the COD and it matches water permeability, if only the first water percolating time is considered.
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Influence of compactness and hemp hurd characteristics on the mechanical properties of lime and hemp concrete
TL;DR: In this article, a brief study of these parameters is presented and discussed in the context of concrete made with hemp hurds, including the presence of fibres in the hemp, the optimization of the granular to binder ratio, and the compaction during the casting process.
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Effect of compaction on mechanical and thermal properties of hemp concrete
T.T. Nguyen,Vincent Picandet,Patrick Carre,Thibaut Lecompte,Sofiane Amziane,Christophe Baley +5 more
TL;DR: In this paper, the effect of compaction during casting on both mechanical and thermal characteristics of hardened specimens in order to evaluate the relevance of such a process was evaluated, and it was shown that the amount of entrapped air inside material, which contributes to decrease the thermal conductivity, is lower.
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Recommendation of the RILEM TC 236-BBM: characterisation testing of hemp shiv to determine the initial water content, water absorption, dry density, particle size distribution and thermal conductivity
Sofiane Amziane,Florence Collet,Mike Lawrence,Camille Magniont,Vincent Picandet,Mohammed Sonebi +5 more
TL;DR: The first round robin test of the TC-BBM was carried out to compare the protocols in use by the different laboratories (labs) to measure initial water content, bulk density, water absorption, particle grading and thermal conductivity as mentioned in this paper.