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Synthesis of FePP@MoS2@Ni-MOF composites for improving thermal and flame retardant safety properties of polyurea
Authors:Jiayu Lin  Yongbo Hou  Lailong Ding  Yifan Wang  Jinhu Hu  Peisong Dong  Qin Wang  Mingliang Ma
Affiliation:1. School of Civil Engineering, Qingdao University of Technology, Qingdao, China

Contribution: Conceptualization (lead), ​Investigation (lead), Writing - original draft (lead);2. School of Civil Engineering, Qingdao University of Technology, Qingdao, China

Contribution: ​Investigation (lead), Writing - review & editing (lead);3. School of Civil Engineering, Qingdao University of Technology, Qingdao, China

Contribution: ​Investigation (equal), Writing - review & editing (equal);4. School of Civil Engineering, Qingdao University of Technology, Qingdao, China

Contribution: ​Investigation (equal);5. School of Civil Engineering, Qingdao University of Technology, Qingdao, China

Contribution: ​Investigation (equal), Writing - review & editing (lead);6. School of Civil Engineering, Qingdao University of Technology, Qingdao, China

Abstract:Polyurea (PUA) is widely used as a coating in construction, tunnels, bridges, and other fields because of its excellent performance. However, its combustion emits toxic gases and smoke, hindering escape and posing potential fatality risks. Enhancing the flame retardancy of PUA is crucial for safety and expanding its applications. The synthesis of two-dimensional FePP nanosheets was reported in this paper, employing the solvothermal method, followed by the sequential growth of MoS2 and Ni-MOF to establish a multilayer composite structure. The elemental composition and morphology of the synthesized FePP@MoS2@Ni-MOF flame retardants were characterized and analyzed. The flame retardant properties of polyurea composites with varying amounts of FePP@MoS2@Ni-MOF were investigated using Cone calorimeter tests. The results showed that the prepared flame retardant had good thermal stability and significantly improved fire safety properties. The PUA/FePP@MoS2@Ni-MOF 3.0 composite exhibited notable improvements compared to pure PUA. Specifically, the peak heat release rate, total heat release rate and peak smoke production rate were reduced by 39.76%, 29.33% and 17.86%, respectively, while total smoke production and total CO production (COP) were reduced by 21.30% and 54.47%. This study provides new insights and experimental basis for the technological development of novel flame retardant coating materials.
Keywords:coatings  composites  flame retardance  thermal properties
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