Description
Product Introduction
Boronated Single Alkenyl Polyisobutylene Succinimide is generally used with oxidation inhibitors and acid neutralizing additives in gasoline and diesel engine oils. It provides excellent low temperature sludge and varnish control in gasoline engines, and effective dispersancy in diesel engine, natural gas and marine cylinder lubricants.
Boronated polyisobutenyl succinimide is a chemical compound that is commonly used as a friction modifier in lubricant additives. It is a boron-containing additive that enhances the lubricating properties of oils and greases.
Polyisobutenyl succinimide is a polymer derived from polyisobutene and succinic anhydride. It has excellent dispersant properties and is commonly used as a detergent in fuel additives. The addition of boron to this compound enhances its performance as a friction modifier, reducing friction and wear in engines and other mechanical systems.
The boron atoms in the compound form a bond with the metal surfaces, creating a protective film that reduces the contact between moving parts. This results in improved lubrication and reduced wear and tear on the engine or machinery.
Boronated polyisobutenyl succinimide is commonly used in automotive engine oils, transmission fluids, and industrial lubricants. It provides excellent protection against friction, wear, and corrosion, improving the overall performance and lifespan of the lubricated systems.
Overall, boronated polyisobutenyl succinimide is an important additive in lubricant formulations, providing enhanced lubrication and protection in a wide range of applications.
Application
Boronated Single Alkenyl Polyisobutylene Succinimide has the good compatibility with metal detergents, ZDDP and other series of additives ,and has the good synergistic effect with additives. It is mainly used for blending high-quality gasoline engine oils and diesel engine oils.
Reference Dosage
The reference dosage is 2.0%-4.0%
| ltem | Typical Value | Test Method |
| Appearance | Transparent Viscous Liquid | Visual |
| Kinematic Viscosity (100℃),mm²/s | ≥ 180 | GB/T265,ASTM D445 |
| TBN,mgKOH/g | Report | SH/T0251,ASTM D2896 |
| Nitrogen,m% | ≥1.8 | NB/SH/T0704,ASTM D5762 |
| Boron,m% | ≥1.8 | GB/T17476,ASTM D5185 |
| Flash Point(COC)℃ | ≥180 | GB/T3536,ASTM D92 |
| Water,m% | ≤0.3 | GB/T260,ASTM D95 |
- Our R&D experts work closely with lubricant formulators, providing technical guidance and custom-blended additive solutions tailored to specific performance needs.
- We offer formulation optimization support, allowing lubricant blenders to adjust additive concentrations for improved efficiency and cost-effectiveness.
- With our comprehensive testing database, we provide customers with performance benchmarking, competitor analysis, and next-generation additive insights.
Company Overview
Our state-of-the-art production facility is supported by an advanced research and development laboratory, ensuring cutting-edge innovation in lubricant additive technology. Spanning 2,50+ square meters, our laboratory is equipped with FTIR, TGA, HPLC, HTHS viscosity testing, and Noack volatility analyzers, enabling precise formulation adjustments for passenger car, heavy-duty, and industrial lubricants.
Our ISO 9001 and ISO 17025 certified quality control processes guarantee that every additive package meets the latest API, ILSAC, ACEA, and OEM specifications. We conduct real-world engine testing, fleet trials, and ASTM-standard lab evaluations, ensuring superior oxidation resistance, deposit control, and fuel economy performance.
Through custom formulation support and technical consultation, we help lubricant manufacturers optimize their blends, enhance performance, and stay ahead of industry trends. Whether you need high-performance additive packages for synthetic lubricants, environmentally friendly formulations, or tailored viscosity modifiers, our laboratory-driven expertise ensures your success in a competitive market.
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