By utilizing a unique intercalation agent, K100 undergoes modification to transform into OMMT, achieving an impressive interlayer spacing of up to 3.0nm. Through a carefully calibrated blending of K100 and other materials for melting intercalation, the monomer is precisely inserted between the lamellae of K100, expanding the layer spacing and leading to complete dissociation into individual lamellae. As a result, these lamellae are uniformly dispersed within the material's matrix, providing exceptional barrier properties, increased toughness, and mitigating the dripping phenomenon during combustion. The vertical combustion grade can reach UL94-V0 (T2.0mm).
By utilizing a unique intercalation agent, K100 undergoes modification to transform into OMMT, achieving an impressive interlayer spacing of up to 3.0nm. Through a carefully calibrated blending of K100 and other materials for melting intercalation, the monomer is precisely inserted between the lamellae of K100, expanding the layer spacing and leading to complete dissociation into individual lamellae. As a result, these lamellae are uniformly dispersed within the material's matrix, providing exceptional barrier properties, increased toughness, and mitigating the dripping phenomenon during combustion. The vertical combustion grade can reach UL94-V0 (T2.0mm).
In the process of polymer combustion, OMMT exhibits a remarkable characteristic whereby a dense barrier carbon layer is generated on the surface of K100. This layer fulfills a crucial role by providing exceptional heat insulation and isolation. Consequently, it enhances the polymer's mechanical properties, including tensile strength, bending strength, and modulus. Moreover, OMMT elevates the thermal deformation temperature of the polymer and significantly improves its resistance to dripping.
In the process of polymer combustion, OMMT exhibits a remarkable characteristic whereby a dense barrier carbon layer is generated on the surface of K100. This layer fulfills a crucial role by providing exceptional heat insulation and isolation. Consequently, it enhances the polymer's mechanical properties, including tensile strength, bending strength, and modulus. Moreover, OMMT elevates the thermal deformation temperature of the polymer and significantly improves its resistance to dripping.
OMMT is a suitable choice for flame retardant treatment in diverse product categories, including PP, PE, PS, EPDM, EVA, and others.
OMMT is a suitable choice for flame retardant treatment in diverse product categories, including PP, PE, PS, EPDM, EVA, and others.
Yinsu flame retardant is a factory, focuses on manufacturing non halogen, low smoke and non-toxic flame retardants for various of applications. It develops different chemical and plastic additive.
