In ultra-high molecular weight polyethylene (UHMW-PE), it is possible to obtain single chain forming single crystals, where chains are adjacently re-entrant. Depending on the heating rate, it is feasible to melt these crystals either by simple consecutive detachment of chain stems from the crystalline substrate or by cluster melting, where several chain stems are involved. The consecutive detachment of chain stems occurs at the melting point predicted from the Gibbs–Thomson equation, whereas the cluster melting at much higher temperatures. Melting by the consecutive detachment of chain stems from the crystal substrate and their diffusion in the melt ultimately result in a new melt state having a heterogeneous distribution of physical entang...
This study reveals important features of polymer crystal formation at high-driving forces in entangl...
Polymers play an important role, both in nature and in the modern society. In contrast to polymers i...
This work addresses the ability of the tube model to describe the rheological response of partially ...
In ultra-high molecular weight polyethylene (UHMW-PE), it is possible to obtain single chain forming...
In ultra-high molecular weight polyethylene (UHMW-PE), it is possible to obtain single chain forming...
The melting-induced change in the density of physical network junctions, which are formed by chain e...
In the past, studies have been performed to follow chain dynamics in an equilibrium polymer melt usi...
A methodology for estimating the entanglement density in the amorphous phase of semicrystalline poly...
In the past, studies have been performed to follow chain dynamics in an equilibrium polymer melt usi...
Recently we demonstrated that it is possible to obtain single chains forming single crystals, where ...
In spite of the abstract nature, entanglements are the folklore of polymer science, and their presen...
In past studies have been performed to follow chain dynamics in an equilibrium polymer melt, using a...
In semi-cryst. polymers, a range of morphologies can be obtained in which a chain may traverse the a...
Ultra-high molecular weight polyethylene (UHMWPE) is a simple polymer used for many engineering appl...
This study reveals important features of polymer crystal formation at high-driving forces in entangl...
Polymers play an important role, both in nature and in the modern society. In contrast to polymers i...
This work addresses the ability of the tube model to describe the rheological response of partially ...
In ultra-high molecular weight polyethylene (UHMW-PE), it is possible to obtain single chain forming...
In ultra-high molecular weight polyethylene (UHMW-PE), it is possible to obtain single chain forming...
The melting-induced change in the density of physical network junctions, which are formed by chain e...
In the past, studies have been performed to follow chain dynamics in an equilibrium polymer melt usi...
A methodology for estimating the entanglement density in the amorphous phase of semicrystalline poly...
In the past, studies have been performed to follow chain dynamics in an equilibrium polymer melt usi...
Recently we demonstrated that it is possible to obtain single chains forming single crystals, where ...
In spite of the abstract nature, entanglements are the folklore of polymer science, and their presen...
In past studies have been performed to follow chain dynamics in an equilibrium polymer melt, using a...
In semi-cryst. polymers, a range of morphologies can be obtained in which a chain may traverse the a...
Ultra-high molecular weight polyethylene (UHMWPE) is a simple polymer used for many engineering appl...
This study reveals important features of polymer crystal formation at high-driving forces in entangl...
Polymers play an important role, both in nature and in the modern society. In contrast to polymers i...
This work addresses the ability of the tube model to describe the rheological response of partially ...