Add to ORKGElementary fibres isolated from mechanically processed technical hemp were axially sectioned and imaged with transmission electron microscopy (TEM) to reveal details of the axial morphology of dislocations in the fibre. The overall aim was to investigate the detailed axial structural changes that the fibres undergo during processing, to help better understand the alterations in the deformation behaviour the fibres undergo following processing. The images showed the structure and morphology of dislocations as well as the different forms of damage that processing produced in the fibre structure, such as misalignment of the microfibrils, delamination, and buckled cellulose microfibrils. Furthermore, the results of this work show the ability th...
Peak-Force Quantitative Nano-Mechanical property mapping (PF-QNM) and Micro Tomography were applied ...
This research presents a novel experimental approach to characterize the non-linear behaviour of hem...
International audienceThe use of plant fibres in composite applications requires an efficient charac...
This manuscript describes the effects of alterations in biochemical composition on structural morpho...
The goal of this study is to investigate how processing of hemp fibre bundles affects their mechanic...
This paper presents systematic and improved methodologies to characterize the surface and fracture o...
This manuscript describes the effects of alterations in biochemical composition on structural morpho...
International audienceThese last years, hemp fibres have been used as reinforcement for compounds ba...
This paper presents finite element analyses of the tensile behaviour of elementary fibres of flax an...
International audienceUnderstanding the mechanical behavior of plant fibers is a key to their develo...
International audienceThe aim of this paper is to investigate the origin of the diameter-dependence ...
A novel experimental setup is presented to reveal damage mechanisms in bast fibers. 3D imaging at su...
International audienceThe control of hemp plant harvesting, in particular the retting process, repre...
This paper reports the possibility of functionalizing hemp fibers (HF) through a mechano-chemical tr...
Peak-Force Quantitative Nano-Mechanical property mapping (PF-QNM) and Micro Tomography were applied ...
This research presents a novel experimental approach to characterize the non-linear behaviour of hem...
International audienceThe use of plant fibres in composite applications requires an efficient charac...
This manuscript describes the effects of alterations in biochemical composition on structural morpho...
The goal of this study is to investigate how processing of hemp fibre bundles affects their mechanic...
This paper presents systematic and improved methodologies to characterize the surface and fracture o...
This manuscript describes the effects of alterations in biochemical composition on structural morpho...
International audienceThese last years, hemp fibres have been used as reinforcement for compounds ba...
This paper presents finite element analyses of the tensile behaviour of elementary fibres of flax an...
International audienceUnderstanding the mechanical behavior of plant fibers is a key to their develo...
International audienceThe aim of this paper is to investigate the origin of the diameter-dependence ...
A novel experimental setup is presented to reveal damage mechanisms in bast fibers. 3D imaging at su...
International audienceThe control of hemp plant harvesting, in particular the retting process, repre...
This paper reports the possibility of functionalizing hemp fibers (HF) through a mechano-chemical tr...
Peak-Force Quantitative Nano-Mechanical property mapping (PF-QNM) and Micro Tomography were applied ...
This research presents a novel experimental approach to characterize the non-linear behaviour of hem...
International audienceThe use of plant fibres in composite applications requires an efficient charac...