Enhancing the thermal and mechanical properties of sulfonated peek fiber composites with reduced smoke density and toxicity

Abstract

Polyether ether ketone (PEEK) sulfonation process is a reasonably easy but time-consuming to manufacture composites. This study focuses on altering PEEK powder in a sulfuric acid solution via a sulfonation process to develop sulfonated PEEK (SPEEK) resin for the fiber-reinforced thermoplastic composite manufacturing and characterization steps. In this study, about 5 wt% PEEK powder was sulfonated in 98% sulfuric acid solution for 12 h at 65 degrees C. The water bath technique was used for the precipitation process to obtain the SPEEK polymer. After proper washing and drying, the SPEEK matrix (resin) was obtained by dissolving it in dimethylformamide in a ratio of 1:2. This resin solution was then used to manufacture thermoplastic Kevlar and glass fiber-reinforced composites employing wet layup process and cured at an elevated temperature under pressure. These SPEEK composites passed the flame retardancy UL94 test with a V0 rating. The average water contact angle of the glass fiber- and Kevlar-SPEEK composites is 93.67 degrees and 102.24 degrees, respectively. The average tensile strength values of these composites were found 222.22 and 284.35 MPa, correspondingly. The smoke density and toxicity tests of the glass fiber-SPEEK composite confirmed lower smoke generation with the modifications. These SPEEK-fiber composites can be considered for various industrial applications, including aviation, energy, drone, defense, and automotive.

Sulfonated peek fiber composites Manufacturing technique with improved flame retardancy. image