Tolsa - Model ADINS Clay -Fire Retardant Synergist Additives
ADINS Clay series are additives based on organically modified special silicates for polymers. ADINS Clay products are developed to increase performance in every polymer system. Specially designed to be used in thermoplastics or thermosets, ADINS Clay provides adequate flame retardancy, gas barrier or reinforcement.
These benefits have been demonstrated by using standard fire behaviour characterization test methods such as UL-94, Smoke Density Chamber and Cone Calorimeter.
There are several products in the ADINS Clay range, such as ADINS Clay 20, ADINS Clay 80T, or ADINS Clay Sil-1. Their use depends on the formulation and system for which they are used.
- ADINS ® Clay series are used in several applications for thermoplastics and thermoset polymers, paints, and coating.
- ADINS ® Clay series act as a synergistic additive in halogen-free systems with different flame retardants (i.e. ATH, MDH, intumescent). ADINS ® Clay enhances the performance of fire retardants, reducing their content, maintaining the flame retardancy behaviour, and improving processability and mechanical properties. ADINS ® Clay reduces fumes formation and helps the dispersion of flame retardants in the polymer.
- The ADINS ® Clay series allows reducing the content of the flame retardants (halogen or halogen-free) used in the foam, reducing the environmental impact.
- The dosage depends on the application, system, flame retardant additives and the desired effects.
ADINS ®technology is an affordable solution for different challenges in material industries, including polymers, paints & coating, mortars, ceramic and others. Our developments allow performance improvement on a cost-effective basis, safety handling, high reproducibility of results and high scalability.
ADINS ® additives are included in different formulations to solve industrial and regulation challenges, by means of performance improvement, costs reductions, safety concerns, or improved efficiency.
This versatile technology allows incorporating diverse functionalities into organic and inorganic materials easily. Surface treated additives ensure perfect compatibility with different organic matrices.