A.G Cofrades scite author profile

J of Applied Polymer Sci

2003

This study was concerned with the chemical modification process of an atactic polypropylene from polymerization reactor byproducts with p-phenylen-bismaleamic acid to obtain a new grafted polymer supposed to play an important role as an interfacial agent in heterogeneous systems based on polymers. The grafting process was undertaken with the aid of the Box-Wilson experimental worksheet, with two independent variables (or controlled factors), the level of polar monomer to be grafted in the polymer and the concentration of the initiator, and with the agitation rate kept constant. Each item of the experimental design was performed at four different reaction times. This latter let us ascertain the transient nature of the process and the existence of a critical point in the concentration of both reactants conducting the system to the maximum grafting yield.

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Influence of reactant concentration and reaction time in the chemical modification process of polypropylene by p-phenylen-bis-maleamic acid in the melt

European Polymer Journal

2000

Grafting ofp-phenylen-bis-maleamic acid into polypropylene in melt

et al. 1998

J. Appl. Polym. Sci.

ABSTRACT:The determination of the influence of the reaction conditions on chemical modification yielding of polypropylene by a polar monomer ( p-phenylen-bis maleamic acid) in melt by using a Box-Wilson experimental design is the main goal of this article. The following 4 independent variables were considered to be mainly affecting the process, initial concentration of reactants (polar monomer and peroxide), gear rate, and reaction time in a batch reactor.

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Thermal and morphological studies on isotactic polypropylene containing p-phenylen-bis-maleamic acid grafted groups

European Polymer Journal

2000