We found a match
Your institution may have access to this item. Find your institution then sign in to continue.
- Title
Efficient and sustainable synthesis of ZIF-67 for synergistically improving reaction-to-fire properties of biomass-based polypropylene composites.
- Authors
Quan, Yufeng; Tanchak, Rachel N.; Zhang, Zhuoran; Wang, Qingsheng
- Abstract
The inherent flammability of polymeric materials poses a potential threat to life and the environment. From a perspective of material renewability and environmental concern, some phosphorus-rich biomass compounds have been considered as effective replacements for conventional intumescent-based flame retardants. In this work, with the aim of suppressing the potential fire hazard of highly flammable polypropylene in a sustainable strategy, a green and facile method was proposed to synthesize ZIF-67 and further used to synergistically improve the performance of phytic acid-based intumescent flame retardants. Diverging from conventional solvothermal synthesis strategies, ZIF-67 was directly prepared with polymer matrix via a solvent-free reactive extrusion method with a notable space time yield. The reaction-to-fire properties were comprehensively investigated under forced combustion bench-scale fire conditions using a cone calorimeter with an external heat flux of 50 kW m−2. It was found that flame retardancy behaviors remain competitive when replacing 10 mass% of expandable graphite with phytic acid component. With the addition of ZIF-67, the heat release (53% reduction), smoke production (22% reduction), char structure stability (35% increment), and specific extinction area (19% reduction) behaviors were further improved due to the development of compact phospho-carbonaceous networks during combustion. Considering these excellent synergistic improvements, it provides a new potential direction to efficiently fabricate biomass-based flame retardants.
- Subjects
FIREPROOFING; REACTIVE extrusion; FIREPROOFING agents; FLAMMABILITY; PHYTIC acid; HEAT release rates; STRUCTURAL stability; POLYPROPYLENE
- Publication
Journal of Thermal Analysis & Calorimetry, 2024, Vol 149, Issue 6, p2585
- ISSN
1388-6150
- Publication type
Article
- DOI
10.1007/s10973-023-12851-5