Description
Product Introduction
The product has excellent performance of extreme pressure and antiwear, fire-inhibition and mildew inhibition. It has certain toxicity.
Applications
It is used primarily for blending gear oil and antiwear hydraulic fluids. It also can be used for fire-inhibition hydraulic fluids.
Reference Dosage
The recommended dosage is from 0.5% to 1.5%.
| ltem | Typical Value | Test Method |
| Appearance | Clear Liquid | Visual Inspection |
| Flash Point(COC),℃ | ≥220 | GB/T3536,ASTM D92 |
| TAN,mgKOH/g | ≤0.1 | GB/T7304,ASTM D664 |
| Free Phenol,%(m) | ≤0.1 | Chromatography |
| Density(20℃),kg/m³ | ≤1190 | GB/T1884,ASTM D1298 |
| Kinetic Viscosity(40℃),mm²/s | Report | GB/T265,ASTM D445 |
- Our industrial lubricant experts work closely with manufacturers to:
✅ Enhance anti-wear and EP performance for gear oils and hydraulic fluids.
✅ Improve oxidation stability for turbine and compressor oils.
✅ Optimize viscosity and film strength for high-load industrial applications.
✅ Develop low-friction, energy-efficient lubricants for factory automation and precision machinery.
✅ Ensure compatibility with synthetic & biodegradable base oils.
The synthesis of tricresyl phosphate is a complex technology that requires multi-step chemical reactions and purification processes. There are two main preparation methods: one is to use the methylating agent methyl potassium iodide and trimethylol sodium salt to react in an organic solvent, and then obtain the product through steps such as hydrolysis, neutralization, and extraction; the other is to use trimethylbenzene. As a raw material, T306A tricresyl phosphate is obtained through oxidation reaction and esterification reaction.
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