Add to ORKGConifer wood is an exceptionally stiff and strong material when its cellulose microfibrils are well aligned. However, it is not well understood how the polymer components cellulose, hemicelluloses and lignin co-operate to resist tensile stress in wood. From X-ray scattering, neutron scattering and spectroscopic data, collected under tension and processed by novel methods, the ordered, disordered and hemicellulose-coated cellulose components comprising each microfibril were shown to stretch together and demonstrated concerted, viscous stress relaxation facilitated by water. Different cellulose microfibrils did not all stretch to the same degree. Attempts were made to distinguish between microfibrils showing large and small elongation but the...
Wood, as the most abundant carbon dioxide storing bioresource, is currently driven beyond its tradit...
In order to clarify the role of microfibrils in the generation of growth stresses in trees, an exper...
Trees withstand wind and snow loads by synthesising wood that varies greatly in mechanical propertie...
Conifer wood is an exceptionally stiff and strong material when its cellulose microfibrils are well ...
Conifer wood is an exceptionally stiff and strong material when its cellulose microfibrils are well ...
The structure of cellulose microfibrils in wood is not known in detail, despite the abundance of cel...
Cellulose microfibrils in conifers, as in other woody materials, are aggregated into loose bundles c...
AbstractA change in cellulose lattice spacing can be detected during the release of wood maturation ...
Small specimens of spruce wood with different degrees of delignification were studied using in-situ ...
Background: Tension wood is a type of reaction wood in response to bending or leaning stem as a corr...
International audienceWood has a hierarchical structure involving several levels of organisation. Th...
Wood and other cellulosic materials are highly sensitive to moisture, which affects their use in man...
Isolated single wood fibres with cellulose fibril angles from 10 to 43° were tested in microtensile ...
Understanding nanoscale moisture interactions is fundamental to most applications of wood, including...
Background: To gain a better understanding of bark layer structure and function, especially of the p...
Wood, as the most abundant carbon dioxide storing bioresource, is currently driven beyond its tradit...
In order to clarify the role of microfibrils in the generation of growth stresses in trees, an exper...
Trees withstand wind and snow loads by synthesising wood that varies greatly in mechanical propertie...
Conifer wood is an exceptionally stiff and strong material when its cellulose microfibrils are well ...
Conifer wood is an exceptionally stiff and strong material when its cellulose microfibrils are well ...
The structure of cellulose microfibrils in wood is not known in detail, despite the abundance of cel...
Cellulose microfibrils in conifers, as in other woody materials, are aggregated into loose bundles c...
AbstractA change in cellulose lattice spacing can be detected during the release of wood maturation ...
Small specimens of spruce wood with different degrees of delignification were studied using in-situ ...
Background: Tension wood is a type of reaction wood in response to bending or leaning stem as a corr...
International audienceWood has a hierarchical structure involving several levels of organisation. Th...
Wood and other cellulosic materials are highly sensitive to moisture, which affects their use in man...
Isolated single wood fibres with cellulose fibril angles from 10 to 43° were tested in microtensile ...
Understanding nanoscale moisture interactions is fundamental to most applications of wood, including...
Background: To gain a better understanding of bark layer structure and function, especially of the p...
Wood, as the most abundant carbon dioxide storing bioresource, is currently driven beyond its tradit...
In order to clarify the role of microfibrils in the generation of growth stresses in trees, an exper...
Trees withstand wind and snow loads by synthesising wood that varies greatly in mechanical propertie...