NINGBO INNO PHARMCHEM CO.,LTD. is committed to advancing material safety, and a key aspect of this is understanding the synergistic capabilities of our products, particularly Zinc Borate. Its role as a synergist with other flame retardants significantly enhances overall fire performance and offers economic advantages.

The effectiveness of Zinc Borate as a flame retardant is often amplified when combined with other additives. This phenomenon, known as synergy, means that the combined effect of Zinc Borate and another flame retardant is greater than the sum of their individual effects. This is a critical aspect of its zinc borate synergist effects, making it a cornerstone in sophisticated fire safety formulations.

One of the most notable synergistic relationships is with antimony trioxide (Sb2O3). In halogen-containing systems, Zinc Borate acts in concert with antimony trioxide to improve flame retardancy. It catalyzes the formation of char and helps create a protective glassy layer. Furthermore, Zinc itself can catalyze the release of halogens by forming zinc halides and oxyhalides, which are highly effective in the gas phase of combustion, quenching flames. This interaction means that less antimony trioxide may be needed to achieve the same level of fire resistance, offering cost savings and potentially reducing toxicity concerns associated with higher antimony loadings.

In halogen-free systems, the synergistic potential of Zinc Borate is equally impressive. It works effectively with common inorganic flame retardants like alumina trihydrate (ATH) and magnesium hydroxide (MDH). When combined, these materials provide enhanced fire resistance, often improving the char formation and overall thermal stability of the polymer. The zinc borate fire retardant mechanism complements the water-releasing properties of ATH and MDH, creating a more robust fire suppression system.

The application of low smoke flame retardant zinc borate is also enhanced through synergy. When formulated correctly with other smoke suppressants and char promoters, it contributes to significantly lower smoke generation during combustion. This is crucial for safety, as reduced smoke improves visibility and reduces the risk of asphyxiation.

Understanding how zinc borate works in polymers in combination with other additives is key to unlocking its full potential. The benefits of zinc borate in plastics are magnified through these synergistic interactions, allowing manufacturers to achieve higher fire safety standards while potentially optimizing material costs and properties.

NINGBO INNO PHARMCHEM CO.,LTD. provides high-quality Zinc Borate that is ideal for synergistic formulations. By leveraging its synergistic properties, industries can develop more effective, safer, and cost-efficient fire-resistant materials. Partner with us to explore the power of synergistic flame retardancy.