4-Biphenylol Diphenyl Phosphate: Enhancing Material Performance with Advanced Flame Retardancy
Discover the power of 4-Biphenylol diphenyl phosphate for superior flame retardancy and plasticization in your applications.
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4-Biphenylol Diphenyl Phosphate
This organophosphate ester is a high-performance compound primarily used as a flame retardant plasticizer. Its unique structure provides excellent thermal stability and effectiveness in disrupting combustion processes, making it ideal for demanding applications where safety and material integrity are paramount. The biphenyl group enhances its aromatic interactions and contributes to its utility in advanced materials.
- This compound offers effective flame retardancy, disrupting combustion and forming a protective char layer on materials, as explored in its 4-biphenylol diphenyl phosphate flame retardant applications.
- As a versatile plasticizer, it enhances polymer flexibility and workability, contributing to improved mechanical properties and durability in various polymer systems, aligning with the benefits of 4-biphenylol diphenyl phosphate plasticizer.
- It functions as a crucial stabilizer for thermoplastics, maintaining material integrity during processing and end-use, which is vital for applications in PVC and other sensitive polymers.
- With a high purity standard of ≥98.00%, it meets rigorous quality requirements for industrial applications, reflecting the importance of reliable organophosphate ester synthesis.
Advantages Offered by the Product
Enhanced Fire Safety
Significantly improves the flame resistance of materials, crucial for meeting stringent safety standards in industries like construction and furniture, a key aspect of flame retardant plasticizer applications.
Improved Material Flexibility
Acts as an effective plasticizer, increasing the flexibility and elongation at break of polymers, contributing to more durable and workable end products.
Superior Thermal Stability
The biphenyl group provides rigidity, leading to enhanced thermal stability compared to similar organophosphate esters, making it suitable for high-temperature processing and use.
Key Applications
Polyurethane Foams
Incorporated into polyurethane foams to significantly enhance flame resistance, reducing flammability ratings and contributing to safer construction materials and furniture, as seen in studies of BPDP environmental impact.
Polyvinyl Chloride (PVC)
Utilized as a stabilizer in PVC formulations, mitigating thermal degradation during processing and improving color stability and mechanical properties over time.
Liquid Crystal Displays (LCDs)
Its aromatic-rich configuration is critical for maintaining nematic phases and dipole moments in liquid crystal mixtures, showcasing its role in electronic materials.
Thermoplastic Materials
Serves as a stabilizer for various thermoplastics, helping to maintain material integrity and performance during both manufacturing and product lifecycle, a key area for organophosphate ester toxicity research.