High Defoaming Strength Mineral Oil Defoamer
Enhance your industrial processes with our powerful and long-lasting defoaming solution.
Get a Quote & SampleProduct Core Value
Mineral Oil Based Defoamer DF190
Our Mineral Oil Based Defoamer DF190 is engineered for superior performance, offering high defoaming strength and extended effectiveness, making it ideal for demanding industrial applications.
- Experience high defoaming strength in your emulsion synthesis processes, ensuring smooth production.
- Benefit from long-lasting effectiveness in pressure-sensitive adhesive formulations, maintaining product integrity.
- Utilize a versatile defoamer suitable for medium to high viscosity systems across various industries.
- Benefit from easy dispersion and a non-hazardous profile, ensuring safe and efficient use in rubber auxiliary agent applications.
Product Advantages
Superior Defoaming Power
Achieve optimal results with our defoamer's exceptional ability to combat foam, crucial for efficient mineral oil defoamer for emulsion synthesis.
Extended Performance
Rely on the long-lasting effectiveness of our defoamer for adhesives, reducing the need for frequent reapplication and ensuring consistent quality.
Versatile Application
Adapt our defoamer to your specific needs, as it is highly effective in medium to high viscosity systems, supporting a range of industrial processes.
Key Applications
Emulsion Synthesis
Improve the quality and stability of your emulsions with our defoamer's targeted action, supporting efficient mineral oil defoamer for emulsion synthesis.
Pressure-Sensitive Adhesives
Ensure the optimal performance and application of adhesives by eliminating unwanted foam with our high defoaming strength defoamer for adhesives.
Coatings Industry
Enhance the finish and application of coatings, benefiting from a non-hazardous defoamer for coatings that ensures a smooth surface.
Rubber and Plastic Auxiliaries
Integrate our cost-effective defoamer for rubber auxiliary agents into your manufacturing to improve product quality and processing efficiency.