In the past, studies have been performed to follow chain dynamics in an equilibrium polymer melt using low molar mass polymers. Here we show that in linear ultrahigh molecular weight polyethylene entanglements formed during or after polymerization are influencing differently the overall chain topology of the polymer melt. When a disentangled UHMWPE sample is crystallized under isothermal conditions after melting, two endothermic peaks are observed. The high temperature peak is related to the melting of crystals obtained on crystallization from the disentangled domains of the heterogeneous (nonequilibrium) polymer melt, whereas the low melting temperature peak is related to the melting of crystals formed from entangled domains of the melt. O...
This study reveals important features of polymer crystal formation at high-driving forces in entangl...
Semi-crystalline polymers containing amorphous and crystalline regions usually have intimately mixed...
We simulated the crystallization and melting behavior of entangled polymer melts using molecular dyn...
In past studies have been performed to follow chain dynamics in an equilibrium polymer melt, using a...
In the past, studies have been performed to follow chain dynamics in an equilibrium polymer melt usi...
In the past, studies have been performed to follow chain dynamics in an equilibrium polymer melt usi...
In ultra-high molecular weight polyethylene (UHMW-PE), it is possible to obtain single chain forming...
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...
Using molecular dynamics simulations and primitive path analysis, we show that hot entangled polymer...
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...
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 ...
This study reveals important features of polymer crystal formation at high-driving forces in entangl...
Semi-crystalline polymers containing amorphous and crystalline regions usually have intimately mixed...
We simulated the crystallization and melting behavior of entangled polymer melts using molecular dyn...
In past studies have been performed to follow chain dynamics in an equilibrium polymer melt, using a...
In the past, studies have been performed to follow chain dynamics in an equilibrium polymer melt usi...
In the past, studies have been performed to follow chain dynamics in an equilibrium polymer melt usi...
In ultra-high molecular weight polyethylene (UHMW-PE), it is possible to obtain single chain forming...
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...
Using molecular dynamics simulations and primitive path analysis, we show that hot entangled polymer...
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...
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 ...
This study reveals important features of polymer crystal formation at high-driving forces in entangl...
Semi-crystalline polymers containing amorphous and crystalline regions usually have intimately mixed...
We simulated the crystallization and melting behavior of entangled polymer melts using molecular dyn...