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TXP 99%
SINOBIO
2919900090
CAS No. : 25155-23-1
Molecular weight : 200.1295
Molecular formula : C8H9O4P
Appearance: Liquid
Molecular Weight: 410.44 g/mol
Appearance: Colorless to pale yellow, transparent, oily liquid
Density: 1.154 g/cm³ (20°C)
Boiling Point: 490.8°C (760 mmHg)
Melting Point: 46°C
Flash Point: 263.8°C
Solubility: Slightly soluble in water, freely soluble in most organic solvents (such as alcohols, ethers, and aromatic hydrocarbons).
| Description | Transparent homogeneous liquid |
| Acid content | ≤0.2 or as per customer request ≤0.04 |
| Flash point | ≥240℃ |
| Viscosity 40℃ | 46-55 cSt |
| Specific gravity | 1.130 — 1.150 |
| Water extract reaction PH | 6.0—8.0 |
| Mass fraction of mechanical impurities, % | ≤0.01 or as per customer request ≤0.005 |
| Cleanliness class | ≤10 |
*Mechanism of Action: They inhibit combustion by promoting the formation of a carbonized layer on the surface of materials, isolating oxygen and heat transfer.
*Applications:
-Plastics: Used in PVC and polyolefins, improving the fire resistance of cables, pipes, and building materials.
-Textiles: Imparting flame retardancy to synthetic fibers (such as polyester and nylon), meeting safety standards for firefighter uniforms and curtains.
-Electronic Materials: Used as flame-retardant coatings on circuit boards and connectors to prevent electrical fires.
*Mechanism of Action: Reduce material hardness through intermolecular forces, enhancing flexibility and processability.
*Applications:
-Rubber: Improves the elasticity and low-temperature resistance of vulcanized rubber.
-Coatings: Improves paint film flexibility and prevents cracking.
*Mechanism of Action: Forms a protective film on metal surfaces, reducing friction and wear.
*Applications:
-Industrial Lubricants: Used in turbine oils and hydraulic fluids to extend equipment life.
-Metalworking Fluids: Reduce cutting temperatures and improve machining accuracy.
1. Excellent Thermal Stability: Withstands high temperatures (such as the operating temperature of electronic components) and maintains long-lasting flame retardancy.
2. Low Volatility: Reduces volatile losses during use, making it suitable for long-term sealed environments (such as cable insulation).
3. Environmentally Friendly: Compared to halogenated flame retardants, it produces less corrosive gases during combustion and complies with environmental standards such as RoHS.
4. Versatile: Combines flame retardancy, plasticization, and lubrication, simplifying formulation design.
1. Flame-retardant Cables: When TXP is added at a 5-10% concentration, the oxygen index of PVC cables can be increased to over 30%, achieving UL94 V-0 certification.
2. Flame-retardant Lubricants: Adding 3-5% TXP to turbine oil significantly improves the oil's flame resistance and thermal oxidative stability.
3. Flame-retardant Textiles: Used in the finishing of polyester fibers, it reduces the vertical burning rate of the fabric by 80%, meeting the GB/T 5455-2014 standard.
230KG/Barrel;Shelf life of one year.
CAS No. : 25155-23-1
Molecular weight : 200.1295
Molecular formula : C8H9O4P
Appearance: Liquid
Molecular Weight: 410.44 g/mol
Appearance: Colorless to pale yellow, transparent, oily liquid
Density: 1.154 g/cm³ (20°C)
Boiling Point: 490.8°C (760 mmHg)
Melting Point: 46°C
Flash Point: 263.8°C
Solubility: Slightly soluble in water, freely soluble in most organic solvents (such as alcohols, ethers, and aromatic hydrocarbons).
| Description | Transparent homogeneous liquid |
| Acid content | ≤0.2 or as per customer request ≤0.04 |
| Flash point | ≥240℃ |
| Viscosity 40℃ | 46-55 cSt |
| Specific gravity | 1.130 — 1.150 |
| Water extract reaction PH | 6.0—8.0 |
| Mass fraction of mechanical impurities, % | ≤0.01 or as per customer request ≤0.005 |
| Cleanliness class | ≤10 |
*Mechanism of Action: They inhibit combustion by promoting the formation of a carbonized layer on the surface of materials, isolating oxygen and heat transfer.
*Applications:
-Plastics: Used in PVC and polyolefins, improving the fire resistance of cables, pipes, and building materials.
-Textiles: Imparting flame retardancy to synthetic fibers (such as polyester and nylon), meeting safety standards for firefighter uniforms and curtains.
-Electronic Materials: Used as flame-retardant coatings on circuit boards and connectors to prevent electrical fires.
*Mechanism of Action: Reduce material hardness through intermolecular forces, enhancing flexibility and processability.
*Applications:
-Rubber: Improves the elasticity and low-temperature resistance of vulcanized rubber.
-Coatings: Improves paint film flexibility and prevents cracking.
*Mechanism of Action: Forms a protective film on metal surfaces, reducing friction and wear.
*Applications:
-Industrial Lubricants: Used in turbine oils and hydraulic fluids to extend equipment life.
-Metalworking Fluids: Reduce cutting temperatures and improve machining accuracy.
1. Excellent Thermal Stability: Withstands high temperatures (such as the operating temperature of electronic components) and maintains long-lasting flame retardancy.
2. Low Volatility: Reduces volatile losses during use, making it suitable for long-term sealed environments (such as cable insulation).
3. Environmentally Friendly: Compared to halogenated flame retardants, it produces less corrosive gases during combustion and complies with environmental standards such as RoHS.
4. Versatile: Combines flame retardancy, plasticization, and lubrication, simplifying formulation design.
1. Flame-retardant Cables: When TXP is added at a 5-10% concentration, the oxygen index of PVC cables can be increased to over 30%, achieving UL94 V-0 certification.
2. Flame-retardant Lubricants: Adding 3-5% TXP to turbine oil significantly improves the oil's flame resistance and thermal oxidative stability.
3. Flame-retardant Textiles: Used in the finishing of polyester fibers, it reduces the vertical burning rate of the fabric by 80%, meeting the GB/T 5455-2014 standard.
230KG/Barrel;Shelf life of one year.
