Add to ORKGIn current research attempt has been made to analyse hemp fibres treated with steam explosion (SE) technology. Disintegration of hemp fibres separated from non-retted, dew-retted and dried stems of hemp (‘Purini’) by alkali treatment and steam explosion (SE) were investigated. An average intensive SE in combination with the hydro-thermal and alkali after-treatment allows decreasing the diameter of hemp fibres and reduce the concentration of non-celluloses components, among them hemicelluloses, lignin, pectin, waxes and water
Microfibrillated cellulose is a new biomaterial having astonishing intrinsic properties. It was first ...
Microfibers and nanofibers from natural products have high mechanical properties. For this reason re...
Steam explosion pre-treatment of biomass presents one of advanced technique for transformation and f...
Multifunctional materials include properties of smart material systems (e.g. smart textiles) as well...
As hemp is a renewable resource with the high biomass yield it could be considered as potential abun...
Abstract. As hemp is a renewable resource with the high biomass yield it could be considered as pote...
In this article, the architecture of hemp fibres as a source of high strength cellulose is analyzed....
Natural fibres as a renewable resource attract attention of scientists and practitioners and their a...
Steam explosion (STEX) is a promising technique to decompose natural fibre hierarchical structure do...
In recent years, an increasing number of researches are dedicated to the identification of local cel...
As hemp is a renewable resource with the high biomass yield it could be considered as potential abun...
As hemp is a renewable resource with the high biomass yield it could be considered as potential abun...
As hemp is a renewable resource with the high biomass yield it could be considered as potential abun...
As hemp is a renewable resource with the high biomass yield it could be considered as potential abun...
Cellulosic materials have a great potential for multifunctional nanomaterial formation. They are abu...
Microfibrillated cellulose is a new biomaterial having astonishing intrinsic properties. It was first ...
Microfibers and nanofibers from natural products have high mechanical properties. For this reason re...
Steam explosion pre-treatment of biomass presents one of advanced technique for transformation and f...
Multifunctional materials include properties of smart material systems (e.g. smart textiles) as well...
As hemp is a renewable resource with the high biomass yield it could be considered as potential abun...
Abstract. As hemp is a renewable resource with the high biomass yield it could be considered as pote...
In this article, the architecture of hemp fibres as a source of high strength cellulose is analyzed....
Natural fibres as a renewable resource attract attention of scientists and practitioners and their a...
Steam explosion (STEX) is a promising technique to decompose natural fibre hierarchical structure do...
In recent years, an increasing number of researches are dedicated to the identification of local cel...
As hemp is a renewable resource with the high biomass yield it could be considered as potential abun...
As hemp is a renewable resource with the high biomass yield it could be considered as potential abun...
As hemp is a renewable resource with the high biomass yield it could be considered as potential abun...
As hemp is a renewable resource with the high biomass yield it could be considered as potential abun...
Cellulosic materials have a great potential for multifunctional nanomaterial formation. They are abu...
Microfibrillated cellulose is a new biomaterial having astonishing intrinsic properties. It was first ...
Microfibers and nanofibers from natural products have high mechanical properties. For this reason re...
Steam explosion pre-treatment of biomass presents one of advanced technique for transformation and f...