By employing a unique intercalation agent, K100 is converted into OMMT, allowing for an impressive interlayer spacing of 3.0nm. Through the controlled intercalation of K100 and other materials in a specific ratio, the monomer is carefully inserted between the lamellae of K100, expanding the layer spacing and leading to complete dissociation into separate lamellae. Consequently, these lamellae are uniformly dispersed within the material's matrix, resulting in exceptional barrier properties, enhanced toughness, and a reduction in material dripping during combustion. The material can achieve a vertical combustion grade of UL94-V0 (T2.0mm).
By employing a unique intercalation agent, K100 is converted into OMMT, allowing for an impressive interlayer spacing of 3.0nm. Through the controlled intercalation of K100 and other materials in a specific ratio, the monomer is carefully inserted between the lamellae of K100, expanding the layer spacing and leading to complete dissociation into separate lamellae. Consequently, these lamellae are uniformly dispersed within the material's matrix, resulting in exceptional barrier properties, enhanced toughness, and a reduction in material dripping during combustion. The material can achieve a vertical combustion grade of UL94-V0 (T2.0mm).
An intriguing characteristic of OMMT involves the formation of a dense barrier carbon layer on the surface of K100 during polymer combustion, which contributes to exceptional heat insulation and isolation. This, in turn, enhances the polymer's mechanical properties, including tensile strength, bending strength, and modulus. Furthermore, OMMT raises the thermal deformation temperature of the polymer and effectively addresses dripping concerns.
An intriguing characteristic of OMMT involves the formation of a dense barrier carbon layer on the surface of K100 during polymer combustion, which contributes to exceptional heat insulation and isolation. This, in turn, enhances the polymer's mechanical properties, including tensile strength, bending strength, and modulus. Furthermore, OMMT raises the thermal deformation temperature of the polymer and effectively addresses dripping concerns.
OMMT provides an effective flame retardant treatment solution for a diverse range of products, including PP, PE, PS, EPDM, EVA, and others.
OMMT provides an effective flame retardant treatment solution for a diverse range of products, 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.
