Effect of Skin-Core Hierarchical Structure on Dielectric Constant of Injection Molded and Cast Film Extruded Liquid Crystalline Polymer

Liquid Crystalline Polymers (LCPs) provide favorable dielectric properties for extremely high frequency (30–100 GHz) radio frequency device packaging and printed circuit board substrates. The material studied in this work is a proprietary, thermotropic LCP composite developed and manufactured by iQLP (Woburn, MA, USA). Dielectric constants measured in the flow direction of the post-processed materials differ between the two processes, 3.51 in injection molded plaques, and 4.23 in cast films. This investigation sought to determine the cause of process-induced variation in the dielectric constant between injection molded and cast film extruded LCP. The complex thermomechanical environment present during processing of LCPs creates a through-thickness hierarchical structure, simplified in this study as a skin and core layer. The volume fraction of skin layer of the post-processed LCP was determined to be the differentiating factor, and responsible for the difference in dielectric constant between the injection molding and cast film extrusion processes. The resulting dielectric constant is a function of this volume fraction with a near linear relationship.