Author(s)

Qi Li ¹

Affiliation(s)

¹ CGN (Anhui) New Energy Investment Co., Ltd., Hefei, Anhui, China

Corresponding Author

Qi Li

ABSTRACT

Chemical engineering production processes are characterized by high temperature and high pressure conditions, flammable and explosive media, and continuous operational procedures. Fire and explosion hazards have long served as the core risks restricting the safe production of the chemical industry. Conventional flame retardant materials suffer from low flame retardancy efficiency, inadequate weather resistance, and poor compatibility with chemical equipment, which fail to meet the safety protection requirements of complex working conditions in modern chemical engineering. Taking new composite flame retardant materials as the core research object, this paper systematically sorts out the application status of such materials in the field of chemical safety protection, and deeply analyzes practical problems existing in material research and development, engineering adaptation, field application and operation and maintenance. Targeted optimization and improvement strategies are proposed in accordance with the operational characteristics of chemical production and relevant safety specifications. The research findings can effectively enhance the stability and reliability of the flame retardant protection system for chemical engineering, and provide theoretical support and practical references for fire risk prevention and control and the upgrading of safety production systems in the chemical industry.

KEYWORDS

Composite flame retardant materials; Chemical engineering; Safety protection; Fire prevention and control; Material optimization

CITE THIS PAPER

Qi Li. Research on the Application of New Composite Flame Retardant Materials in Safety Protection of Chemical Engineering. Journal of Materials, Processing and Design (2026). Vol. 10, No.1, 83-89. DOI: http://dx.doi.org/10.23977/jmpd.2026.100111.

REFERENCES

[1] Zhu Y, Chen J, Zhao B, et al. Flax fibre-reinforced epoxy composites with gradient flame-retardant distribution and fire warning function[J].Advanced Nanocomposites,2026,33-35.
[2] Wang Y, Gu W, Xu L, et al. Enhancing antistatic and solvent-resistant performance of flame retardant PA6/carbon fiber composite by interfacial regulation[J].Polymer Degradation and Stability,2026,12-19.
[3] Li W, Chen X, Zhang Z, et al. "Anchoring-grafting" modified magnesium hydroxide synergized with red phosphorus for long-service-life flame-retardant EVA composites[J].Polymer Degradation and Stability,2026,1-3.
[4] Ye X, Chai J, Wang Y, et al. Engineering S/Si-containing rigid organic particles for transparent, tough, flame-retardant polycarbonate composites[J].Polymer Degradation and Stability,2026,2-5.
[5] Li X, Deng J, Huang Z, et al. Hierarchical PI@Ag@ZnO heterostructures for thermally conductive, flame-retardant, and extreme-environment reliability silicone composites[J].Composites Communications,2026,6-10.
[6] Dong J, Deng X, Pan Y, et al. The construction of the hierarchical porous structure wood/Ni/P composite materials for electromagnetic shielding and flame retardancy[J].Colloids and Surfaces A: Physicochemical and Engineering Aspects,2026,10-14.
[7] Cheng Q, Du C, Chen T, et al. Mussel-inspired fabrication of PDA@MOFs biomimetic microcapsules for flame-retardant epoxy composites: A comparative study on fire safety and mechanical enhancement[J]. Journal of Loss Prevention in the Process Industries,2026,21-34.
[8] Geng Z, Qin Y, Kang D, et al. A novel DOPO-Flame-Retardant epoxy foam and its sandwich composite with Long-Term storage stability at room Temperature: Preparation and performance Evaluation[J]. Composites Part A,2026,9-10.
[9] Luo X, Zhao L, Ma W, et al. Supramolecular interface engineering of a hierarchical core-shell flame retardant for smoke-suppressive and fire-safe PVC composites[J]. Polymer,2026,16-17.
[10] Zhang C, Dong Z, Qiu J, et al. Pod-inspired emulsion-crosslinking strategy for intrinsically flexible, flame-retardant, and photothermal phase change composites[J]. Polymer,2026,13-18.

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