Fracture Behavior of Long Fiber Reinforced Geopolymer Composites at Different Operating Temperatures

The aim of this article was to analyze the fracture behavior of geopolymer composites based on fly ash or metakaolin with fine aggregate and river sand, with three types of reinforcement: glass, carbon, and aramid fiber, at three different temperatures, approximately: 3 degrees C, 20 degrees C, and 50 degrees C. The temperatures were selected as a future work temperature for composites designed for additive manufacturing technology. The main research method used was bending strength tests in accordance with European standard EN 12390-5. The results showed that the addition of fibers significantly improved the bending strength of all composites. The best results at room temperature were achieved for the metakaolin-based composites and sand reinforced with 2% wt. aramid fiber-17 MPa. The results at 50 degrees C showed a significant decrease in the bending strength for almost all compositions, which are unexpected results, taking into account the fact that geopolymers are described as materials dedicated to working at high temperatures. The test at low temperature (ca. 3 degrees C) showed an increase in the bending strength for almost all compositions. The grounds of this type of behavior have not been clearly stated; however, the likely causes of this are discussed.

Automated summary

The aim of this study was to analyze the fracture behavior of geopolymer composites based on fly ash or metakaolin with different types of fiber reinforcement at three different temperatures. The results showed that the addition of fibers significantly improved the bending strength of all composites, but there was a significant decrease in bending strength at 50 degrees C. Unexpectedly, the test at low temperature showed an increase in bending strength.