Densities of hemp shiv for building: From multiscale characterisation to application

[1]  T. Lecompte,et al.  Static and long term compression behavior of hemp shiv for floating floor application , 2020 .

[2]  M. Lawrence,et al.  RETRACTED ARTICLE: Industrial bio-based plant aggregates as hygric and insulating construction materials for energy efficient building , 2020, Frontiers of Chemical Science and Engineering.

[3]  T. Lecompte,et al.  Impact of GHGs temporal dynamics on the GWP assessment of building materials: A case study on bio-based and non-bio-based walls , 2020 .

[4]  T. Lecompte,et al.  Hygrothermal properties of light-earth building materials , 2020, Journal of Building Engineering.

[5]  S. Amziane,et al.  Impact of hemp shiv extractives on hydration of Portland cement , 2020, Construction and Building Materials.

[6]  P. Monteiro,et al.  Multiscale X-ray tomography of cementitious materials: A review , 2020, Cement and Concrete Research.

[7]  T. Langlet,et al.  A novel anisotropic analytical model for effective thermal conductivity tensor of dry lime-hemp concrete with preferred spatial distributions , 2019, Energy and Buildings.

[8]  S. Amziane,et al.  Aging of hemp shiv used for concrete , 2018, Materials & Design.

[9]  Rafik Belarbi,et al.  Microscopic hydric characterization of hemp concrete by X-ray microtomography and digital volume correlation , 2018, Construction and Building Materials.

[10]  C. Lanos,et al.  Chemical and multi-physical characterization of agro-resources’ by-product as a possible raw building material , 2018, Industrial Crops and Products.

[11]  J. Aubert,et al.  Characterization of Barley Straw, Hemp Shiv and Corn Cob as Resources for Bioaggregate Based Building Materials , 2018 .

[12]  M. Lawrence,et al.  Cell wall microstructure, pore size distribution and absolute density of hemp shiv , 2018, Royal Society Open Science.

[13]  Guillaume Habert,et al.  Fast-growing bio-based materials as an opportunity for storing carbon in exterior walls , 2018 .

[14]  P. Walker,et al.  The influence of the casting process on the internal structure and physical properties of hemp-lime , 2016, Materials and structures.

[15]  Emmanuelle Gouillart,et al.  Analyzing microtomography data with Python and the scikit-image library , 2016, Advanced Structural and Chemical Imaging.

[16]  A. D. Tran-Le,et al.  Modeling thermal conductivity of hemp insulation material: A multi-scale homogenization approach , 2016 .

[17]  O. Kinnane,et al.  Acoustic absorption of hemp-lime construction , 2016 .

[18]  P. Walker,et al.  A method for the assessment of the internal structure of bio-aggregate concretes , 2016 .

[19]  V. Picandet,et al.  Study of lime hemp concrete (LHC) – Mix design, casting process and mechanical behaviour , 2016 .

[20]  Agata Lo Giudice,et al.  Energy and environmental assessment of industrial hemp for building applications: A review , 2015 .

[21]  A. Ribeiro,et al.  Microbial diversity observed during hemp retting , 2015, Applied Microbiology and Biotechnology.

[22]  J. Beaugrand,et al.  Multi-scale analysis of the structure and mechanical performance of woody hemp core and the dependence on the sampling location , 2014 .

[23]  F. Collet,et al.  Thermal conductivity of hemp concretes: Variation with formulation, density and water content , 2014, 1406.3310.

[24]  V. Picandet,et al.  Study of lime hemp composite precasting by compaction of fresh mix — An instrumented die to measure friction and stress state , 2014 .

[25]  P. Withers,et al.  Quantitative X-ray tomography , 2014 .

[26]  Philippe Glé Acoustique des Matériaux du Bâtiment à base de Fibres et Particules Végétales - Outils de Caractérisation, Modélisation et Optimisation , 2013 .

[27]  Laurent Arnaud,et al.  Modelling of the acoustical properties of hemp particles , 2012 .

[28]  Johannes E. Schindelin,et al.  Fiji: an open-source platform for biological-image analysis , 2012, Nature Methods.

[29]  S. Amziane,et al.  Effect of compaction on mechanical and thermal properties of hemp concrete , 2010 .

[30]  Michael J. Hoffmann,et al.  Determination of the thermal properties of ceramic sponges , 2010 .

[31]  T. Nguyen Contribution à l'étude de la formulation et du procédé de fabrication d'éléments de construction en béton de chanvre , 2010 .

[32]  Alvin R. Womac,et al.  Bulk Density of Wet and Dry Wheat Straw and Switchgrass Particles , 2008 .

[33]  Changquan Calvin Sun,et al.  True density of microcrystalline cellulose. , 2005, Journal of pharmaceutical sciences.

[34]  Claude Boutin,et al.  Acoustic wave propagation in double porosity media. , 2003, The Journal of the Acoustical Society of America.

[35]  P. Cappelletto,et al.  Italy-grown hemp: yield, composition and cannabinoid content , 2001 .

[36]  P. Klobes,et al.  Comparison between different presentations of pore size distribution in porous materials , 1999 .

[37]  E. Liniger,et al.  Random loose packings of uniform spheres and the dilatancy onset. , 1990, Physical review letters.

[38]  Elsa M. L. Ehrnrooth Change in Pulp Fibre Density With Acid-Chlorite Delignification , 1984 .

[39]  A. R. Cooper,et al.  Compaction Behavior of Several Ceramic Powders , 1962 .

[40]  T. Pierre,et al.  Characterization of the thermal properties of millimeter-sized insulating materials , 2019, International Journal of Thermal Sciences.

[41]  S. Amziane,et al.  Durability du beton de chanvre : resistance aux cycles d’immersion hydrique et sechage , 2016 .

[42]  A. Meyer,et al.  Hemp fibres: Enzymatic effect of microbial processing on fibre bundle structure , 2013 .

[43]  Camille Magniont Contribution à la formulation et à la caractérisation d'un écomatériau de construction à base d'agroressources , 2010 .

[44]  Arnaud Evrard,et al.  Transient hygrothermal behaviour of Lime-Hemp Materials , 2008 .

[45]  V. Cerezo,et al.  Propriétés mécaniques, thermiques et acoustiques d'un matériau à base de particules végétales : approche expérimentale et modélisation théorique , 2005 .

[46]  Sudhagar Mani,et al.  Evaluation of compaction equations applied to four biomass species , 2004 .

[47]  J. Allard Propagation of Sound in Porous Media: Modelling Sound Absorbing Materials , 1994 .

[48]  Donald W Breck,et al.  Zeolite Molecular Sieves: Structure, Chemistry, and Use , 1974 .

[49]  D. A. G. Bruggeman Berechnung verschiedener physikalischer Konstanten von heterogenen Substanzen. I. Dielektrizitätskonstanten und Leitfähigkeiten der Mischkörper aus isotropen Substanzen , 1935 .

[50]  E. E. Walker The properties of powders. Part VI. The compressibility of powders , 1923 .