Add to ORKGThis paper describes an approach to manufacture hierarchical composites from environmentally friendly materials by grafting cellulose whiskers onto regenerated cellulose fibers (Cordenka 700). Fourier Transform Infrared spectroscopy, Scanning Electron Microscopy and X-ray diffraction analysis were performed to verify the degree of modification. The mechanical properties of the unmodified and modified fibers were analyzed using fiber bundle tensile static and loading-unloading tests. To show the effect of cellulose whiskers grafting on the Cordenka fibers, epoxy based composites were manufactured and tensile tests done on transverse uni-directional specimens. The mechanical properties were significantly increased by fiber modification and ad...
The aim of the paper was to examine the application of regenerated cellulose fibers as a reinforceme...
Cellulosic fibres have been a focus of research within the polymer composite area in recent years an...
There is need for the bio‐based materials which could fully or partly replace the synthetic material...
This paper describes an approach to manufacture hierarchical composites from environmentally friendl...
Cellulose is an environmentally friendly material which is obtainable in vast quantities, since it i...
Cellulosic fibres (flax, hemp, regenerated cellulose) possess decent mechanical properties and they ...
This paper presents environmentally friendlier technique for deposition of cellulose nano-whiskers o...
It has been demonstrated that natural fibers, such as flax and hemp for example, have mechanical pro...
Biobased all-cellulose composites (ACCs), in which the matrix and the reinforcement are made out of ...
AbstractA novel robust non-woven sisal fibre preform was manufactured using a papermaking process ut...
The behaviour of highly non-linear cellulosic fibers and their composite is characterized. Micro-mec...
Endless rayon fibres (Cordenka®) were used to reinforce polyhydroxybutyrate (PHB) nanocomposites con...
The objective of this study was to develop a new process to manufacture high-strength biocomposites ...
The aim of the paper was to examine the application of regenerated cellulose fibers as a reinforceme...
Cellulosic fibres have been a focus of research within the polymer composite area in recent years an...
There is need for the bio‐based materials which could fully or partly replace the synthetic material...
This paper describes an approach to manufacture hierarchical composites from environmentally friendl...
Cellulose is an environmentally friendly material which is obtainable in vast quantities, since it i...
Cellulosic fibres (flax, hemp, regenerated cellulose) possess decent mechanical properties and they ...
This paper presents environmentally friendlier technique for deposition of cellulose nano-whiskers o...
It has been demonstrated that natural fibers, such as flax and hemp for example, have mechanical pro...
Biobased all-cellulose composites (ACCs), in which the matrix and the reinforcement are made out of ...
AbstractA novel robust non-woven sisal fibre preform was manufactured using a papermaking process ut...
The behaviour of highly non-linear cellulosic fibers and their composite is characterized. Micro-mec...
Endless rayon fibres (Cordenka®) were used to reinforce polyhydroxybutyrate (PHB) nanocomposites con...
The objective of this study was to develop a new process to manufacture high-strength biocomposites ...
The aim of the paper was to examine the application of regenerated cellulose fibers as a reinforceme...
Cellulosic fibres have been a focus of research within the polymer composite area in recent years an...
There is need for the bio‐based materials which could fully or partly replace the synthetic material...