DEVELOPMENT AND EVALUATION OF SURFACE TREATMENTS TO ENHANCE THE FIBER-MATRIX ADHESION IN PAN-BASED CARBON-FIBER LIQUID-CRYSTAL POLYMER COMPOSITES .2. ELECTROCHEMICAL TREATMENTS
Ja. King et al., DEVELOPMENT AND EVALUATION OF SURFACE TREATMENTS TO ENHANCE THE FIBER-MATRIX ADHESION IN PAN-BASED CARBON-FIBER LIQUID-CRYSTAL POLYMER COMPOSITES .2. ELECTROCHEMICAL TREATMENTS, Polymer composites, 14(4), 1993, pp. 301-307
Various electrochemical surface treatments, designed to improve the fi
ber-matrix adhesion, were applied to commingled as-received continuous
AS4 carbon reinforcing fiber/liquid crystal polymer (LCP) matrix fibe
rs. Unidirectional composite plates (nominally 60 vol% carbon fiber) w
ere fabricated and short beam shear (SBS) tests were conducted to prov
ide an indication of the effect of the treatments on AS4 carbon fiber-
LCP matrix adhesion. The mean SBS strength of the as-received AS4/LCP
system was 49 MPa. Three electrochemically polymerized coatings-poly-p
ara-phenylene (PPP), polyphenylene oxide (PPO), and polyaniline (PA) -
were applied. Only the PPO coating, however, had a beneficial effect o
n the composite shear strength. This coating enhanced the shear streng
th by 14% relative to the as-received AS4/LCP system. Scanning electro
n microscope (SEM) observations of the PPO treated shear failure surfa
ce indicated the presence of a strong fiber-matrix bond. That is, the
failure location was in the LCP matrix material.