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9 product grades found
Magnifin ® H-10 C
MAGNIFIN® H-10 C magnesium hydroxide is high-purity grade treated with a special fatty acid coating. The patented process guarantees a regular structure of the cristallite. It is tailor-made for a variety plastic and elastomer applications.
Magnifin ® H-10
MAGNIFIN® H-10 magnesium hydroxide is a high-purity grade. It conforms to the standards of the European Pharmacopeia and is tailor-made for plastic applications with low smoke emission and high thermal stability up to 340°C.
Magnifin ® H-5
MAGNIFIN® H-5 magnesium hydroxide is high-purity grade. It conforms to the European Pharmacopeia and is tailor-made for plastic and elastomer applications with low smoke emission and high thermal stability up to 340°C.
Magnifin ® H-7 C
MAGNIFIN® H-7 C magnesium hydroxide is a high-purity grade, treated with a special fatty acid coating. The patented process guarantees a regular structure of the cristallite. The product is tailor-made for plastic and elastomer applications.
Magnifin ® H-7
MAGNIFIN® H-7 magnesium hydroxide is high-purity grade. It conforms to the European Pharmacopeia and is tailor-made for plastic and elastomer applications.
Vertex ® 100
Vertex® 100 magnesium hydroxide is a fine particle size untreated product for fire rated thermoplastic and elastomeric compounds.
Vertex ® 100SP
Vertex® 100 SP magnesium hydroxide is a fine particle size vinyl silane-treated grade.
Zerogen ® 50
Zerogen® 50 is an untreated magnesium hydroxide which can be used in polyolefins, EPR/EPDM, PVC and certain engineering thermoplastics such as polyamides to make zero-halogen or low-smoke compounds.
Zerogen ® 50 SV
Zerogen® 50 SV is a magnesium hydroxide with a proprietary surface treatment that provides superior fire performance when used to make fire-rated EVA compounds. The proprietary surface treatment improves smoke suppression efficiency of magnesium hydroxide and increases limiting oxygen index (LOI) of the EVA compound. As a result, lower magnesium hydroxide loading level can be used leading to enhanced rheological and processing performance, and improved compound mechanical properties. The surface treatment also promotes compatibility of the magnesium hydroxide with the polymer and high quality of dispersion.