Add to ORKGThe incorporation of nanoscale particles into oriented polymers offers the potential to enhance the properties of the resultant nanocomposites. Vapour-grown carbon nanofibres (CNF) are particularly favoured due to high particle shape anisotropy (~10-100), high modulus (240GPa), and are readily available. CNF have been incorporated into polypropylene (PP) using a twin-screw extruder, and the nano-filled material has then been oriented by melt-spinning and solid phase drawing, to produce high modulus, highly oriented tapes, that are then formed into thick section homogeneous sheets, using the hot compaction process developed at the University of Leeds. Preliminary static tensile testing results of uniaxially wound hot compacted samples show a...
The joint effect of chemical functionalization and polymer melt blending conditions on carbon nanotu...
HDPE-based nanocomposite fibers have been extruded from a melt and drawn up to draw ratio DR = 8. Tw...
We investigated efficient methods to maximize the mechanical properties of carbon fiber/polypropylen...
Nanoscale fillers offer the potential for significant enhancement of a range of polymer properties, ...
The exceptional properties of carbon nanomaterials make them ideal reinforcements for polymers. Howe...
The variation of the physical properties of different carbon nanofibers, CNFs, based-polymer nanocom...
The current work is a major extension of two very different studies carried out previously to invest...
In the present work, vapour grown carbon nanofibres (VGCNFs) were used as fillers for isotatic polyp...
In this paper we describe the production of a polypropylene (PP)/carbon nanofibre (CNF) nanocomposit...
The variation of the physical properties of four differ- ent carbon nanofibers (CNFs), based-polymer ...
ABSTRACT In the present study, effect of vapor grown carbon nanofiber on the mechanical and thermal ...
This dissertation describes the first use of a design of experiments approach to investigate the int...
Two melt mixing methods generating flow with different characteristics are compared to study the dis...
Interactive effects of carbon allotropes on the mechanical reinforcement of polymer nanocomposites w...
Carbon-based nanoparticles have unique electrical, thermal, barrier and mechanical properties. When...
The joint effect of chemical functionalization and polymer melt blending conditions on carbon nanotu...
HDPE-based nanocomposite fibers have been extruded from a melt and drawn up to draw ratio DR = 8. Tw...
We investigated efficient methods to maximize the mechanical properties of carbon fiber/polypropylen...
Nanoscale fillers offer the potential for significant enhancement of a range of polymer properties, ...
The exceptional properties of carbon nanomaterials make them ideal reinforcements for polymers. Howe...
The variation of the physical properties of different carbon nanofibers, CNFs, based-polymer nanocom...
The current work is a major extension of two very different studies carried out previously to invest...
In the present work, vapour grown carbon nanofibres (VGCNFs) were used as fillers for isotatic polyp...
In this paper we describe the production of a polypropylene (PP)/carbon nanofibre (CNF) nanocomposit...
The variation of the physical properties of four differ- ent carbon nanofibers (CNFs), based-polymer ...
ABSTRACT In the present study, effect of vapor grown carbon nanofiber on the mechanical and thermal ...
This dissertation describes the first use of a design of experiments approach to investigate the int...
Two melt mixing methods generating flow with different characteristics are compared to study the dis...
Interactive effects of carbon allotropes on the mechanical reinforcement of polymer nanocomposites w...
Carbon-based nanoparticles have unique electrical, thermal, barrier and mechanical properties. When...
The joint effect of chemical functionalization and polymer melt blending conditions on carbon nanotu...
HDPE-based nanocomposite fibers have been extruded from a melt and drawn up to draw ratio DR = 8. Tw...
We investigated efficient methods to maximize the mechanical properties of carbon fiber/polypropylen...