Advanced Flame Retardancy for Engineering Plastics
Discover the power of Bisphenol-A bis(diphenyl phosphate) for enhanced safety and performance in your polymer applications.
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Bisphenol-A bis(diphenyl phosphate)
This oligomeric phosphate ester flame retardant offers exceptional properties for demanding engineering resin applications. Its low volatility and high heat stability ensure it can withstand the high processing temperatures required for many advanced plastics.
- Enhance flame retardancy in PC/ABS alloys using this effective halogen-free solution.
- Benefit from high heat stability flame retardant properties crucial for engineering resins.
- Improve melt flow in thermoplastics by utilizing it as a specialized processing aid for plastics.
- Achieve superior performance with a low volatility flame retardant that maintains integrity during processing.
Advantages Provided by the Product
Superior Flame Retardancy
As a halogen-free flame retardant for engineering resins, it significantly boosts the safety profile of materials like PC/ABS and modified PPE.
Excellent Processability
Its role as a processing aid for plastics ensures improved melt flow, making manufacturing more efficient, especially in thin-wall molding.
High Thermal Stability
The inherent high heat stability flame retardant characteristic makes it ideal for engineering plastics that require high processing temperatures.
Key Applications
Engineering Plastics
A key flame retardant for PC/ABS alloys and modified PPE, providing essential fire safety and processing benefits.
HIPS and PPO Alloys
Ideal for use in HIPS/PPO alloy applications, contributing to both flame retardancy and processing efficiency.
Thermoplastics Improvement
Acts as a crucial processing aid for plastics, improving melt flow in materials like ABS and HIPS, and offering excellent flame retardancy for ABS and HIPS.
Synthetic Fibers
Used to impart flame retardant properties, ensuring safety in textile applications requiring enhanced fire resistance.