Hygric behaviour of a clay-Typha bio-based material for building

Ibrahim Niang; Chadi Maalouf; Tala Moussa; Etienne Samin; Ton Hoang Mai; Salif Gaye

doi:10.1051/e3sconf/20198508004

All issues

Volume 85 (2019)

E3S Web Conf., 85 (2019) 08004

References

Open Access

Issue		E3S Web Conf. Volume 85, 2019 EENVIRO 2018 – Sustainable Solutions for Energy and Environment


Article Number		08004
Number of page(s)		5
Section		Other Topics in Built Environment
DOI		https://doi.org/10.1051/e3sconf/20198508004
Published online		22 February 2019

M. Rahim, O. Douzane, A. D. Tran Le, G. Promis, and T. Langlet, "Characterization and comparison of hygric properties of rape straw concrete and hemp concrete," Constr. Build. Mater., vol. 102, Part 1, pp. 679-687, Jan. (2016) [Google Scholar]
A. Bourdot, T. Moussa, A. Gacoin, C. Maalouf, P. Vazquez, C. Thomachot-Schneider, C. Bliard, A. Merabtine, M. Lachi, O. Douzane, H. Karaky, and G. Polidori, "Characterization of a hemp-based agro-material: Influence of starch ratio and hemp shive size on physical, mechanical, and hygrothermal properties," Energy Build., vol. 153, pp. 501-512, Oct. (2017) [Google Scholar]
T. Moussa, C. Maalouf, M. Lachi, S. Umurigirwa, T. H. Mai, and J.-F. Henry, "Development and performance evaluation of a hemp-starch composite," J. Build. Phys., vol. 40, no. 3, pp. 278-295, Nov. (2016) [Google Scholar]
G. Costantine, C. Maalouf, T. Moussa, and G. Polidori, "Experimental and numerical investigations of thermal performance of a Hemp Lime external building insulation," Build. Environ., vol. 131, pp. 140-153, Mar. (2018) [Google Scholar]
PNUD,GEF, "Document de projet:Production de Matériaux d’Isolation thermique à base de Typha au Sénégal." (2013) [Google Scholar]
Volhard, "Construire en terre allégée." Broché, (2016) [Google Scholar]
Anger,Fontaine, Bâtir en terre-Du grain de sable à l’architecture. Broché, (2011) [Google Scholar]
Guillaud ; Houben, "Traité de construction en terre." Broché, (2006) [Google Scholar]
F. McGregor, A. Heath, A. Shea, and M. Lawrence, "The moisture buffering capacity of unfired clay masonry," Build. Environ., vol. 82, pp. 599-607 (2014) [Google Scholar]
Y. Dieye, V. Sambou, M. Faye, A. Thiam, M. Adj, and D. Azilinon, "Thermo-mechanical characterization of a building material based on Typha Australis," J. Build. Eng., vol. 9, pp. 142-146, (2017) [CrossRef] [Google Scholar]
Diatta, M, "M. Diatta, S. Gaye, A. Thiam, D. Azilinon Détermination des propriétés thermo-physique et mécanique du typha australis Cong. SFT, Perpignan (France)." (2011) [Google Scholar]
A. S. Diaw, D. Sow, M. B. Ndiaye, A. O. Abdelakh, M. Wade, and S. Gaye, "Valorization of Typha Australis by its Integration in Building Construction Materials," International Journal of Emerging Technology and Advanced Engineering, (2016) [Google Scholar]
Theuerkorn, "Typha-Technik, D- 84389 Ostmuenster, Wichtleiten 3." (2002) [Google Scholar]
NS 02-00075, "Typha: Code de bonne pratique pour la récolte, le séchage, le transport, et le stockage." Association Sénégalaise de la Normalisation, (2014) [Google Scholar]
NF P 94-051, "Soils: Investigation and testing-Determination of Atterberg’s limits-Liquid limit test using Casagrande apparatus-Plastic limit test on rolled thread." AFNOR, (1993) [Google Scholar]
Riveros Olmos, "Essais d’identification de la matière première." CRATerre, (2016) [Google Scholar]
E. Samin, "Résultats de la recherche & développement-années 1 et 2 -, CRAterre, Grenoble, France," Ministère de l’Environnement et du Développement Durable, Direction de l’Environnement et des Etablissements Classés, Programme National de réduction des émissions des Gaz à Effet de Serre à travers l’Efficacité Énergétique dans le secteur du Bâtiment, Projet de Production de matériaux d’isolation thermique à base de Typha, (2017). [Google Scholar]
S. Merakeb, F. Dubois, and C. Petit, "S. Merakeb, F. Dubois, C. Petit, Modeling of the sorption hysteresis for wood, Wood Science Technology, 43, (2008) 575-589.," pp. 575-589, (2009) [Google Scholar]
AFNOR, "NF EN ISO standard 1257 : 2000." NF EN ISO standard 12572, (2001) [Google Scholar]
Rode, "Nordtest project on moisture buffer value of materials." (2005) [Google Scholar]
K. S. Sing and Al, "Reporting physisorption data for gas/solid systems with special reference to the determination of surface to the determination of surface area and porosity," in Pure and Applied Chemistry, pp. 603-619 (1985) [CrossRef] [Google Scholar]
A. Celino, S. Freour, F. Jacquemin, and P. Casari, "The hygroscopic behavior of plant fibers: a review.,"4, pp. 1-12 (2014) [Google Scholar]
G. S. Park, "Transport Principles: Solution, Diffusion and Permeation in Polymer Membranes.," vol. 181, pp. 57-107 (1986) [Google Scholar]
E. Gourlay, P. Glé, S. Marceau, C. Foy, and S. Moscardelli, "Effect of water content on the acoustical and thermal properties of hemp concretes," Constr. Build. Mater., vol. 139, pp. 513-523, (2017) [Google Scholar]

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[1] M. Rahim, O. Douzane, A. D. Tran Le, G. Promis, and T. Langlet, "Characterization and comparison of hygric properties of rape straw concrete and hemp concrete," Constr. Build. Mater., vol. 102, Part 1, pp. 679-687, Jan. (2016) [Google Scholar]

[2] A. Bourdot, T. Moussa, A. Gacoin, C. Maalouf, P. Vazquez, C. Thomachot-Schneider, C. Bliard, A. Merabtine, M. Lachi, O. Douzane, H. Karaky, and G. Polidori, "Characterization of a hemp-based agro-material: Influence of starch ratio and hemp shive size on physical, mechanical, and hygrothermal properties," Energy Build., vol. 153, pp. 501-512, Oct. (2017) [Google Scholar]

[3] T. Moussa, C. Maalouf, M. Lachi, S. Umurigirwa, T. H. Mai, and J.-F. Henry, "Development and performance evaluation of a hemp-starch composite," J. Build. Phys., vol. 40, no. 3, pp. 278-295, Nov. (2016) [Google Scholar]

[4] G. Costantine, C. Maalouf, T. Moussa, and G. Polidori, "Experimental and numerical investigations of thermal performance of a Hemp Lime external building insulation," Build. Environ., vol. 131, pp. 140-153, Mar. (2018) [Google Scholar]

[5] PNUD,GEF, "Document de projet:Production de Matériaux d’Isolation thermique à base de Typha au Sénégal." (2013) [Google Scholar]

[6] Volhard, "Construire en terre allégée." Broché, (2016) [Google Scholar]

[7] Anger,Fontaine, Bâtir en terre-Du grain de sable à l’architecture. Broché, (2011) [Google Scholar]

[8] Guillaud ; Houben, "Traité de construction en terre." Broché, (2006) [Google Scholar]

[9] F. McGregor, A. Heath, A. Shea, and M. Lawrence, "The moisture buffering capacity of unfired clay masonry," Build. Environ., vol. 82, pp. 599-607 (2014) [Google Scholar]

[10] Y. Dieye, V. Sambou, M. Faye, A. Thiam, M. Adj, and D. Azilinon, "Thermo-mechanical characterization of a building material based on Typha Australis," J. Build. Eng., vol. 9, pp. 142-146, (2017) [CrossRef] [Google Scholar]

[11] Diatta, M, "M. Diatta, S. Gaye, A. Thiam, D. Azilinon Détermination des propriétés thermo-physique et mécanique du typha australis Cong. SFT, Perpignan (France)." (2011) [Google Scholar]

[12] A. S. Diaw, D. Sow, M. B. Ndiaye, A. O. Abdelakh, M. Wade, and S. Gaye, "Valorization of Typha Australis by its Integration in Building Construction Materials," International Journal of Emerging Technology and Advanced Engineering, (2016) [Google Scholar]

[13] Theuerkorn, "Typha-Technik, D- 84389 Ostmuenster, Wichtleiten 3." (2002) [Google Scholar]

[14] NS 02-00075, "Typha: Code de bonne pratique pour la récolte, le séchage, le transport, et le stockage." Association Sénégalaise de la Normalisation, (2014) [Google Scholar]

[15] NF P 94-051, "Soils: Investigation and testing-Determination of Atterberg’s limits-Liquid limit test using Casagrande apparatus-Plastic limit test on rolled thread." AFNOR, (1993) [Google Scholar]

[16] Riveros Olmos, "Essais d’identification de la matière première." CRATerre, (2016) [Google Scholar]

[17] E. Samin, "Résultats de la recherche & développement-années 1 et 2 -, CRAterre, Grenoble, France," Ministère de l’Environnement et du Développement Durable, Direction de l’Environnement et des Etablissements Classés, Programme National de réduction des émissions des Gaz à Effet de Serre à travers l’Efficacité Énergétique dans le secteur du Bâtiment, Projet de Production de matériaux d’isolation thermique à base de Typha, (2017). [Google Scholar]

[18] S. Merakeb, F. Dubois, and C. Petit, "S. Merakeb, F. Dubois, C. Petit, Modeling of the sorption hysteresis for wood, Wood Science Technology, 43, (2008) 575-589.," pp. 575-589, (2009) [Google Scholar]

[19] AFNOR, "NF EN ISO standard 1257 : 2000." NF EN ISO standard 12572, (2001) [Google Scholar]

[20] Rode, "Nordtest project on moisture buffer value of materials." (2005) [Google Scholar]

[21] K. S. Sing and Al, "Reporting physisorption data for gas/solid systems with special reference to the determination of surface to the determination of surface area and porosity," in Pure and Applied Chemistry, pp. 603-619 (1985) [CrossRef] [Google Scholar]

[22] A. Celino, S. Freour, F. Jacquemin, and P. Casari, "The hygroscopic behavior of plant fibers: a review.,"4, pp. 1-12 (2014) [Google Scholar]

[23] G. S. Park, "Transport Principles: Solution, Diffusion and Permeation in Polymer Membranes.," vol. 181, pp. 57-107 (1986) [Google Scholar]

[24] E. Gourlay, P. Glé, S. Marceau, C. Foy, and S. Moscardelli, "Effect of water content on the acoustical and thermal properties of hemp concretes," Constr. Build. Mater., vol. 139, pp. 513-523, (2017) [Google Scholar]