Applicability of rheometers to characterizing earth mortar behavior. Part I: experimental device and validation, Materials and Structures, vol.41, issue.8, pp.1465-1472, 2008. ,
Towards a simple compressive 775 strength test for earth bricks?, Mater Struct, vol.49, pp.1641-1654, 2016. ,
Compression behaviour of non-industrial 778 materials in civil engineering by three scale experiments: the case of rammed earth, Mater Struct, vol.779, pp.1101-1116, 2009. ,
Earthen construction: an increase of the mechanical strength by optimizing the dispersion of the binder phase, Materials and Structures, vol.49, issue.4, pp.1555-1568, 2015. ,
URL : https://hal.archives-ouvertes.fr/hal-01159955
, Earthen construction: an increase of the mechanical strength by optimizing the dispersion of the 782 binder phase, Mater Struct, vol.49, pp.1555-1568
Earth construction: Lessons from the past for future eco-efficient construction, Construction and Building Materials, vol.29, pp.512-519, 2012. ,
Earth construction: Lessons from the past for future eco-efficient construction, Construction and Building Materials, vol.29, pp.512-519, 2012. ,
Life cycle analysis of environmental impact vs. durability of stabilised rammed earth, Construction and Building Materials, vol.142, pp.128-136, 2017. ,
Building houses with local materials: means to drastically reduce the environmental impact of construction, Building and Environment, vol.36, issue.10, pp.1119-1126, 2001. ,
Traité de construction en terre, Parenthèses, vol.793, p.9, 2006. ,
Building with Earth, 2009. ,
, Designer Profile 2008/2009: Graphic + Multimedia Design, Basel · Berlin · Boston, vol.795, p.10, 2008.
The strength of unstabilised rammed earth materials, Géotechnique, vol.59, issue.5, pp.487-490, 2009. ,
Effect of moisture content on the mechanical characteristics of rammed earth, Construction and Building Materials, vol.54, pp.163-169, 2014. ,
,
Compressive strength testing of compressed earth blocks, Construction and Building Materials, vol.21, issue.2, pp.303-309, 2007. ,
Compressive strength testing of compressed earth blocks, Construction and Building Materials, vol.21, issue.2, pp.303-309, 2007. ,
Addition of bio based reinforcement to 804 improve workability, mechanical properties and water resistance of earth-based materials, p.805, 2019. ,
Editorial ? special issue IFED 2018, Civil Engineering and Environmental Systems, vol.36, issue.1, pp.1-1, 2019. ,
, , pp.184-192
Cast, compaction, vibro-compaction or 808 extrusion: processing methods for optimizing the mechanical strength of raw earth-based 809 materials, Special Issue -810 ICBBM 2019, vol.37, pp.156-163, 2019. ,
Impact of relative humidity on the mechanical behavior of compacted earth as a building material, Construction and Building Materials, vol.110, pp.70-78, 2016. ,
Impact of relative humidity on the mechanical behavior of compacted earth as a building material, Construction and Building Materials, vol.110, pp.70-78, 2016. ,
Analysis of the hygrothermal functional properties of stabilised rammed earth materials, Building and Environment, vol.44, issue.9, pp.1935-1942, 2009. ,
Analysis of the hygrothermal functional properties of stabilised rammed earth materials, Building and Environment, vol.44, issue.9, pp.1935-1942, 2009. ,
Hygrothermal analysis of a stabilised rammed earth test building in the UK, Energy and Buildings, vol.42, issue.6, pp.845-852, 2010. ,
Hygrothermal analysis of a stabilised rammed earth test building in the UK, Energy and Buildings, vol.42, issue.6, pp.845-852, 2010. ,
Conditions affecting the moisture buffering measurement performed on compressed earth blocks, Building and Environment, vol.75, pp.11-18, 2014. ,
A review on the buffering capacity of earth building materials, Proceedings of the Institution of Civil Engineers - Construction Materials, vol.169, issue.5, pp.241-251, 2016. ,
URL : https://hal.archives-ouvertes.fr/hal-01834514
, Construction Materials, vol.169, pp.241-251
Properties of some cement stabilised compressed earth blocks 827 and mortars, Mat Struct, vol.30, pp.545-551, 1997. ,
Part 829 A: compaction characteristics and physical properties of compacted cement stabilised soils, Mater, vol.830, pp.681-693, 2011. ,
Cement stabilised rammed earth. Part 832 B: compressive strength and stress-strain characteristics, Mater Struct, vol.44, pp.695-707, 2011. ,
,
Design of clay/cement mixtures for 835 extruded building products, Mater Struct, vol.46, pp.999-1010, 2013. ,
Behavior of cement-stabilized rammed earth circular 838 column under axial loading, Mater Struct, vol.49, pp.371-382, 2014. ,
, , p.840, 2014.
, Self-Compacted Clay based Concrete, rheological, mechanical and environmental investigations, vol.841
Mechanical enhancement of cement-843 stabilized soil by flax fibre reinforcement and extrusion processing, Mater Struct, vol.49, pp.1143-1156, 2015. ,
,
Earth concrete. Stabilization revisited, p.846, 2018. ,
Discussion of "Earth 848 concrete. Stabilization revisited, Cement and Concrete Research, vol.114, p.105991, 2020. ,
,
, , 2020.
,
Reply to the discussion of the paper ?Earth Concrete. Stabilization Revisited? by A.T.M. Marsh, A. Heath, P. Walker, B.V. Venkatarama Reddy, and G. Habert, Cement and Concrete Research, vol.130, p.105992, 2020. ,
Reply to the discussion of the paper ?Earth Concrete. Stabilization Revisited? by A.T.M. Marsh, A. Heath, P. Walker, B.V. Venkatarama Reddy, and G. Habert, Cement and Concrete Research, vol.130, p.105992, 2020. ,
Is stabilization of earth bricks using low cement or lime contents relevant?, Construction and Building Materials, vol.236, p.117578, 2020. ,
URL : https://hal.archives-ouvertes.fr/hal-02520183
Yield stress and bleeding of fresh cement pastes, Cement and Concrete Research, vol.42, issue.7, pp.937-944, 2012. ,
URL : https://hal.archives-ouvertes.fr/hal-01757246
Yield stress and bleeding of fresh cement pastes, Cement and Concrete Research, vol.42, issue.7, pp.937-944, 2012. ,
URL : https://hal.archives-ouvertes.fr/hal-01757246
Linking rheological and geotechnical properties of kaolinite materials for earthen construction, Materials and Structures, vol.49, issue.11, pp.4647-4655, 2016. ,
URL : https://hal.archives-ouvertes.fr/hal-01374489
A fresh look at dense clay paste: Deflocculation and thixotropy mechanisms, Colloids and Surfaces A: Physicochemical and Engineering Aspects, vol.539, pp.252-260, 2018. ,
Mechanical behaviour of hypercompacted earth for building construction, Materials and Structures, vol.50, issue.2, p.160, 2017. ,
URL : https://hal.archives-ouvertes.fr/hal-02153536
Mechanical behaviour of hypercompacted earth for building construction, Materials and Structures, vol.50, issue.2, 2017. ,
URL : https://hal.archives-ouvertes.fr/hal-02153536
Optimization of bricks production by earth hypercompaction prior to firing, Journal of Cleaner Production, vol.214, pp.475-482, 2019. ,
URL : https://hal.archives-ouvertes.fr/hal-02354295
Optimization of bricks production by earth hypercompaction prior to firing, Journal of Cleaner Production, vol.214, pp.475-482, 2019. ,
URL : https://hal.archives-ouvertes.fr/hal-02354295
, Joffroy, vol.877
4 Huiles, graisses et cires d'origine animale ou végétale : France, PaTerre+: Interactions argiles/biopolymères , Patrimoine Architectural en terre et 878 stabilisants naturels d'origine animale et végétale. CRAterre ENSAG 39, 2013. ,
, Argiles & biopolymères, p.880, 2017.
, les stabilisants naturels pour la construction en terre, CRAterre éditions, vol.881, p.40
On Earth Stabilization with Natural Polymers for Earth Masonry Construction, Materials and Structures, vol.39, issue.1, pp.21-27, 2006. ,
On Earth Stabilization with Natural Polymers for Earth Masonry Construction, Materials and Structures, vol.39, issue.1, pp.21-27, 2006. ,
Clay-based composite stabilized with natural polymer and fibre, Construction and Building Materials, vol.24, issue.8, pp.1462-1468, 2010. ,
Clay-based composite stabilized with natural polymer and fibre, Construction and Building Materials, vol.24, issue.8, pp.1462-1468, 2010. ,
Approche granulaire et colloïdale du matériau terre pour la construction, 2011. ,
Seaweed biopolymers as additives for 889 unfired clay bricks, Mater Struct, vol.49, pp.4463-4482, 2016. ,
A novel bio-based deflocculant for bentonite drilling mud, Applied Clay Science, vol.127-128, pp.23-34, 2016. ,
A novel bio-based deflocculant for bentonite drilling mud, Applied Clay Science, vol.127-128, pp.23-34, 2016. ,
Dataset of the use of tannin of néré (parkia-biglobosa) as a solution for the sustainability of the soil constructions in West Africa, Data in Brief, vol.8, pp.474-483, 2016. ,
Dataset of the use of tannin of néré (parkia-biglobosa) as a solution for the sustainability of the soil constructions in West Africa, Data in Brief, vol.8, pp.474-483, 2016. ,
USING ALGINATE BIOPOLYMER 897 TO ENHANCE THE MECHANICAL PROPERTIES OF EARTH-BASED MATERIALS, 2017. ,
,
Strategies for optimizing the 900 mechanical strengths of raw earth-based mortars, Stabilisation de matériaux de construction durables et 903 écologiques à base de terre crue par des liants organiques et/ou minéraux à faibles impacts 904 environnementaux. Université Toulouse 3 -Paul Sabatier, vol.167, p.49, 2018. ,
Application of Microbial Biopolymers as an Alternative Construction Binder for Earth Buildings in Underdeveloped Countries, International Journal of Polymer Science, vol.2015, pp.1-9, 2015. ,
, Alternative Construction Binder for Earth Buildings in Underdeveloped Countries, International 907 Journal of Polymer Science, vol.2015, p.909
Eyrolles, Paul, 2011. ,
Rheological properties of sodium alginate in an aqueous system during gelation in relation to supermolecular structures and Ca2+ binding, Food Hydrocolloids, vol.23, issue.7, pp.1746-1755, 2009. ,
Rheological properties of sodium alginate in an aqueous system during gelation in relation to supermolecular structures and Ca2+ binding, Food Hydrocolloids, vol.23, issue.7, pp.1746-1755, 2009. ,
Biodegradation of Xanthan Gum by Bacillus sp, Applied and Environmental Microbiology, vol.44, issue.1, pp.5-11, 1982. ,
Biodegradation of Xanthan Gum by Bacillus sp, Applied and Environmental Microbiology, vol.44, issue.1, pp.5-11, 1982. ,
Biodegradation of Xanthan Gum by Bacillus sp, Applied and Environmental Microbiology, vol.44, issue.1, pp.5-11, 1982. ,
Xanthan gum biosynthesis and application: a biochemical /genetic perspective, Applied Microbiology and Biotechnology, vol.50, issue.2, pp.145-152, 1998. ,
Xanthan gum biosynthesis and application: a biochemical /genetic perspective, Applied Microbiology and Biotechnology, vol.50, issue.2, pp.145-152, 1998. ,
Effects of Xanthan gum biopolymer on soil strengthening, Construction and Building Materials, vol.74, pp.65-72, 2015. ,
, Lipid Oxidation: Theoretical Aspects. In: Bailey's Industrial Oil and 925 Fat Products, 926 56. Schaich KM (2020) Lipid Oxidation: New Perspectives on an Old Reaction. In: Bailey's 927 Industrial Oil and Fat Products, pp.1-72, 2005.
Graphique 5.6. Influence potentielle de la politique énergétique nationale indonésienne (KEN) sur les marchés mondiaux des huiles végétales ,
NF EN 13057 -Produits et systèmes pour la protection et la réparation 931 des structures en béton -Méthodes d'essai -Détermination de l'absorption capillaire, AFNOR, vol.932, p.59, 2002. ,
XP P 13-901 -Blocs de terre comprimée pour murs et cloisons, AFNOR, vol.933, p.60, 2017. ,
Water sorptivity of mortars and concretes: a review, Magazine of Concrete Research, vol.41, issue.147, pp.51-61, 1989. ,
A Confrontation of Two Concepts for the Description of the Over-capillary Moisture Range: Air Entrapment versus Low Capillarity, Energy Procedia, vol.78, pp.1490-1494, 2015. ,
A Confrontation of Two Concepts for the Description of the Over-capillary Moisture Range: Air Entrapment versus Low Capillarity, Energy Procedia, vol.78, pp.1490-1494, 2015. ,
British standard and RILEM water absorption tests: A critical evaluation, Materials and Structures, vol.32, issue.8, pp.571-578, 1999. ,
Theory of Infiltration, Advances in Hydroscience, pp.215-296, 1969. ,
Hygric properties of porous building materials (III): Impact 943 factors and data processing methods of the capillary absorption test, Building and Environment, vol.944, p.65, 2018. ,
Comparison of the hygric behaviour of three hemp concretes, Energy and Buildings, vol.62, pp.294-303, 2013. ,
URL : https://hal.archives-ouvertes.fr/hal-00810372
Comparison of the hygric behaviour of three hemp concretes, Energy and Buildings, vol.62, pp.294-303, 2013. ,
URL : https://hal.archives-ouvertes.fr/hal-00810372
, , 2004.
, Rennes, vol.1, p.67
Hygric and thermal properties of hemp-lime plasters, Building and Environment, vol.96, pp.206-216, 2016. ,
URL : https://hal.archives-ouvertes.fr/hal-01251467
Hygric and thermal properties of hemp-lime plasters, Building and Environment, vol.96, pp.206-216, 2016. ,
URL : https://hal.archives-ouvertes.fr/hal-01251467
Principaux critères de qualification des éléments préfabriqués en béton pour le bâtiment, Matériaux et Constructions, vol.15, issue.4, pp.319-320, 1982. ,
Analysis of the water absorption test 959 to assess the intrinsic permeability of earthen materials, Reference Module in Earth Systems and 70, vol.960, p.71, 2015. ,
Etude de la rétention d'eau et de la consolidation des sols dans un cadre 962 thermo-hydro-mécanique, sciences et techniques du Languedoc, vol.2, p.72, 2007. ,
Impact of Soil Type and Compaction Conditions on Soil Water Characteristic, Journal of Geotechnical and Geoenvironmental Engineering, vol.128, issue.9, pp.733-742, 2002. ,
Impact of Soil Type and Compaction Conditions on Soil Water Characteristic, Journal of Geotechnical and Geoenvironmental Engineering, vol.128, issue.9, pp.733-742, 2002. ,
Susceptibility of earth-based construction materials to fungal proliferation: laboratory and in situ assessment, RILEM Technical Letters, vol.3, pp.140-149, 2019. ,
Susceptibility of earth-based construction materials to fungal proliferation: laboratory and in situ assessment, RILEM Technical Letters, vol.3, pp.140-149, 2019. ,
Stabilised soil blocks for structural masonry in earth 970 construction, Modern Earth Buildings, pp.324-363, 2012. ,
The drying effect on xanthan gum biopolymer treated sandy soil shear strength, Construction and Building Materials, vol.197, pp.271-279, 2019. ,
The drying effect on xanthan gum biopolymer treated sandy soil shear strength, Construction and Building Materials, vol.197, pp.271-279, 2019. ,
, Building materials and products. Hygrothermal properties. Tabulated design values, NF EN ISO 10456 -Building materials and products -Hygrothermal properties -975
, Building materials and products. Hygrothermal properties. Tabulated design values and procedures for determining declared and design thermal values
Moisture Buffer Value of Building Materials, Heat-Air-Moisture Transport: Measurements on Building Materials, p.33-33-12 ,
A new continuous device to perform S-L-G photocatalytic studies, Solar Energy, vol.49, issue.1, pp.47-52, 1992. ,