Rotational molding is used to manufacture hollow plastic parts. It is characterized by relatively slow cooling rates, which leads to large spherulites and brittleness in rotomolded polypropylene parts. Using both theoretical and experimental methods, this article assesses the factors that control spherulite size so that the properties of rotationally molded polypropylene parts can be improved. The approach taken is to predict the average density of the nuclei of isothermally crystallized polypropylene as a function of the crystallization temperature, using data on the half-time of crystallization (determined by differential scanning calorimetry) and the spherulite growth rate (measured by optical microscopy). The prediction method is then e...
The final properties of a plastic object are related to the structures developed during the process ...
The effects of flowing preformed spherulites on shear-induced melt crystallization behaviors of isot...
When flow is applied on a semi-crystalline polymer melt, it can greatly impact how it crystallizes i...
This article was presented at the 4th International Conference on Polymer Behavior, International Un...
For semicrystalline thermoplastics, aside from pressure and shear, the temperature-time behavior whi...
In this study, the quiescent crystallization of several polypropylenes (PPs) with different molecula...
As crystallization behavior has a great effect on the injection molding process, the flash different...
This article is part of an ambitious project. The aim is to simulate mechanical properties of rotomo...
In common polymer processing operations such as injection molding, film blowing, and fiber spinning,...
Polymers are known for their ease of processability via automated mass production technologies. The ...
The structure of semi-crystalline polymers is strongly influenced by the conditions applied during p...
The injection moldings of isotactic polypropylenes with various molecular weights were simulated usi...
Polymer solidification occurring in many processes, like for instance injection molding,compression ...
The final properties of a plastic object are related to the structures developed during the process ...
The effects of flowing preformed spherulites on shear-induced melt crystallization behaviors of isot...
When flow is applied on a semi-crystalline polymer melt, it can greatly impact how it crystallizes i...
This article was presented at the 4th International Conference on Polymer Behavior, International Un...
For semicrystalline thermoplastics, aside from pressure and shear, the temperature-time behavior whi...
In this study, the quiescent crystallization of several polypropylenes (PPs) with different molecula...
As crystallization behavior has a great effect on the injection molding process, the flash different...
This article is part of an ambitious project. The aim is to simulate mechanical properties of rotomo...
In common polymer processing operations such as injection molding, film blowing, and fiber spinning,...
Polymers are known for their ease of processability via automated mass production technologies. The ...
The structure of semi-crystalline polymers is strongly influenced by the conditions applied during p...
The injection moldings of isotactic polypropylenes with various molecular weights were simulated usi...
Polymer solidification occurring in many processes, like for instance injection molding,compression ...
The final properties of a plastic object are related to the structures developed during the process ...
The effects of flowing preformed spherulites on shear-induced melt crystallization behaviors of isot...
When flow is applied on a semi-crystalline polymer melt, it can greatly impact how it crystallizes i...