A phosphate ester plasticizer with fast gelling behavior for flexible PVC & good flame retarding characteristics in many polymers.

Disflamoll TKP
$0.00
Market: Engineered Plastics, Masterbatch & Pigment Preparations, Plastic Resin Producer, Plasticized Technical Fabric, Plastics, PVC, TPO-Transportation/Automotive, Vinyl Flooring, Wire & CableProduct Type: Additives
Product Category: Flame Retardants
Supplier: Lanxess
Disflamoll® TKP is a phosphate ester plasticizer with fast gelling behavior for flexible PVC and good flame retarding characteristics in many polymers.
It is used as a flame retardant in the production of articles made of flexible PVC, such as transparent sheets, cables, floor, and wall coverings. The product is also used in rubber compounds to improve flame retardancy, coldness, and processing. It is also used as a base oil for fire-resistant hydraulic fluids and as anti-wear additive in lubricants.
For more information on Lanxess Flame Retardants, check out the Selection Guide!
Disflamoll® TKP is a phosphate ester plasticizer with fast gelling behavior for flexible PVC and good flame retarding characteristics in many polymers.
It is used as a flame retardant in the production of articles made of flexible PVC, such as transparent sheets, cables, floor, and wall coverings. The product is also used in rubber compounds to improve flame retardancy, coldness, and processing. It is also used as a base oil for fire-resistant hydraulic fluids and as anti-wear additive in lubricants.
For more information on Lanxess Flame Retardants, check out the Selection Guide!
Features and Benefits:
- Fast fusion
- Low volatility
- Good resistance to oil extraction
- Good flame retarding characteristics
Properties:
Typical Properties | Value |
Appearance | clear, almost colorless liquid |
Phosphorus Content | 8.4% (calculated) |
Acid Value | ≤ 0.05 mg KOH/g |
Water Content | ≤ 0.1 % |
Hazen Color Value | ≤ 100 |
Refractive Index nD 20°C | 1.557 – 1.560 |
Density at 20°C | 1.175 – 1.185 g/cm3 |
Viscosity at 20°C | 65 – 72 mPa·s |