In-situ polymerized zinc phytate chelated Si-C-P geopolymer hybrid coating constructed by incorporating chitosan oligosaccharide and DOPO for flame-retardant plywood

[Display omitted] •0.5 wt% Zn-PA endows the geopolymer coating with better flame retardancy.•The Si-C-P structure provides better physical adsorption capacity.•The flame retardant mechanism and cross-linking mechanism of Zn2+ chelated Si-C-P geopolymer coating are described. Zinc phytate (ZnPA) chel...

Full description

Saved in:
Bibliographic Details
Published in:Construction & building materials 2023-09, Vol.397, p.132416, Article 132416
Main Authors: Zhang, HongJi, Wang, YaChao, Li, Fan, Zhao, JiangPing
Format: Article
Language:English
Subjects:
Cenospheres
Flame retardant
Physical adsorption
Pyrolysis kinetics
Zinc phytate
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:[Display omitted] •0.5 wt% Zn-PA endows the geopolymer coating with better flame retardancy.•The Si-C-P structure provides better physical adsorption capacity.•The flame retardant mechanism and cross-linking mechanism of Zn2+ chelated Si-C-P geopolymer coating are described. Zinc phytate (ZnPA) chelated geopolymer and in-situ polymerized chitosan oligosaccharide (COS)/DOPO explored a challenging and exciting flame retardant organic–inorganic hybrid coating via sol–gel method to find halogenated high-efficiency bio-flame retardants are widely used as decorative materials for flame-retardant plywood. Herein, the results show that the appropriated ZnPA (0.5 wt%) enhances the flame retardancy of the geopolymer coating, the peak of heat release rate (p-HRR) decreases from 136.09 to 99.39 kW·m−2, the fire growth index (FGI) dropped from 0.47 to 0.28 kW m−2 s−1, the fire performance index (FPI) climbs from 1.00 to 2.52 s·m2·kW−1, and the flame retardancy index (FRI) climbs from 1.00 to 2.52. Meanwhile, through the microstructural analysis of the residual layer, a strong, compact and non-flammable resilient residues is obtained after combustion; Moreover, the pyrolysis kinetics show that the Z.-L.-T. three-dimensional diffusion reaction model governs the pyrolysis of hybrid coatings. Appropriated ZnPA increases the pyrolysis Eα from 138.95 kJ·mol−1 to 160.75 kJ·mol−1 at 741 ∼ 890 ℃ and improves the thermal stability of the coating. The Si-C-P structure improves the formaldehyde adsorption rate by 46.5%. Therefore, this study, by preparing COS-pretreated ZnPA and DOPO to co-construct alkali-excited cenospheres-based Si-C-P coating, reveals the sustainable development of modified bio-based geopolymer flame-retardant coatings in the construction industry.
ISSN:0950-0618
1879-0526
DOI:10.1016/j.conbuildmat.2023.132416