Bio-mediated MOF-derived core–shell flame retardant: Towards styrene–butadiene–styrene asphalt with enhanced flame safety and pavement performance

Abstract

In order to improve the flame retardancy of magnesium hydroxide (MH) in styrene– butadiene–styrene (SBS) asphalt, two hierarchically structured bio-based flame retardants (FRs) (MH@SA-MOF and MH@SA-LDH) with MH as the core as well as metal organic framework (MOF) or derived layered double hydroxide (LDH) as the shell, were engineered via an alginate-mediated assembly and etching strategy in this study. The flame retardancy and smoke suppression properties of SBS asphalt were found to be remarkably improved by the addition of the bio-based FRs. In addition, the SBS asphalt with added MH@SA-MOF had a higher limiting oxygen index (LOI) than the SBS asphalt samples to which had been added the same amount of MH or MH@SA-LDH. The peak heat release rate (pHRR) and total heat release (THR) of the bio-based MH@SA-MOF FR asphalt (FRA) was 32.9% and 8.9% lower, respectively, than those of the MH FRA. The MH@SA-MOF and MH@SA-LDH FRs had similar impacts on the flame retardancy of SBS asphalt, but the MH@SA-LDH FR had a stronger smoke suppression effect. In addition, bio-based FRs can enhance the anti-aging and anti-deformation performance of SBS asphalt. Moreover, hierarchical catalytic charring structure was observed, suggesting application prospects in flame-retardant asphalt tunnel pavement for the new FRA designs based on bio-remediation of conventional hydroxide flame retardants.