Journal of Polymer Science Part B: Polymer Physics, Vol.33, No.12, 1781-1791, 1995
Effect of the Structure of Latex-Particles on Adhesion .1. Synthesis and Characterization of Structured Latex-Particles of Acrylic Copolymers and Their Peel Adhesion Behavior
This is a series of articles that deals with fundamental aspects of the effects of the structure of latex particles of acrylic copolymers on their adhesion behavior. Specifically, relationship or analogy between theological properties and adhesion performance of the acrylic copolymers was demonstrated. The first part of this series concerns the synthesis and characterization of latex particles with desired structures and compositions, and the experimental results of peel adhesion. The second part develops an analogy between the peel adhesion performance of the adhesives and theological properties of the corresponding copolymers. The third part addresses the generalities and particularities of three major tests for adhesion : peeling, blistering, and spontaneous peeling. Three types of structured latex particles were synthesized by three different emulsion polymerization processes : the first type had a uniform composition over the entire particles with a glass transition temperature (T-g) varying between -40 degrees C and 0 degrees C, depending upon the compositions of monomers involved in the copolymer; the second type was of core-shell structure. As for the third type, the composition of monomers varied gradually across the particle radii. The glass transition behavior and the dynamic mechanical properties in the solid state of the copolymers confirmed the structures of the corresponding latex particles. On the other hand, the peel adhesion performance of the films of these latex particles varied with the dynamic mechanical properties of the corresponding copolymers. This implies that a correlation could be found between the structure of the latex particles, dynamic mechanical properties in the solid state of the corresponding copolymers, and the peel adhesion performance of the adhesive films.