Improving the adhesion of polyolefins to glassy polymers is complicated by the semicrystalline nature of the polyolefins. Traditional methods used in glassy polymers to increase the interlayer adhesion, including the addition of a diblock copolymer or the formation of a copolymer through in situ reaction, are still successful with semicrystalline polymers. However, melt miscibility of the adhesion promoting molecules is not the only consideration; co-crystallization can also be significant. Even when co-crystallization is achieved, the reactive method is shown to provide greater fracture toughness than the addition of a pre-made diblock copolymer. In the latter case, the formation of micelles limits the efficiency of the diblock copolymer. Finally, significant adhesion enhancement is attainable in reactive systems with contact times as short as 45 seconds as demonstrated through a multilayer coextrusion of amorphous nylon against a polypropylene-maleated polypropylene blend.
|Original language||English (US)|
|Journal||Materials Research Society Symposium - Proceedings|
|State||Published - 2000|
|Event||Interfaces, Adhesion and Processing in Polymer Systems - San Francisco, CA, United States|
Duration: Apr 24 2000 → Apr 27 2000
Bibliographical noteFunding Information:
The 3M Company and National Science Foundation’s (Award Number DMR-9809364) financial support of this research is greatly appreciated. In addition, the synthesis of the diblock copolymers by Todd Jones and discussions with Kim Chaffin were quite helpful.