找到最适合您需要的产品 使用产品搜索工具
搜索 解决方案

产品搜索器

20 product grades found

Martoxid ® TM-3220

Martoxid® TM-3220 calcined aluminum oxide is a thermally conductive super ground aluminum oxide utilized as a filler in thermoplastics, thermosets, resins etc. Used for thermal management, improvement of mechanical, electrical, and rheological properties.

Martoxid ® TM-3310

Martoxid® TM-3310 calcined aluminum oxide is a thermally conductive super ground aluminum oxide utilized as a filler in thermoplastics, thermosets, resins etc. Used for thermal management, improvement of mechanical, electrical, and rheological properties.

Martoxid ® TM-3510

Martoxid® TM-3510 calcined aluminum oxide is a thermally conductive super ground aluminum oxide utilized as a filler in thermoplastics, thermosets, resins etc. Used for thermal management, improvement of mechanical, electrical, and rheological properties.

MoldX ® A300

MoldX® A300 aluminum hydroxide is optimized to provide dramatically improved processing viscosities to sheet molding compounds (SMC) at loadings ranging from 250 phr to greater than 350 phr. It is Huber's highest performing 'low viscosity' grade.

MoldX ® A400

MoldX® A400 aluminum hydroxide is a third generation optimized aluminum hydroxide product that gives low viscosity at a high loading level (250-380 phr), but requires 20-30% less loading than MoldX® A110 to achieve the same flame retardant performance.

Hymod ® SB432 ST1

Hymod® SB432 ST1 aluminum hydroxide is a medium particle size aluminum hydroxide treated with fatty acid.

Martinal ® ON-313S

Martinal® ON-313 S aluminum hydroxide is a 15 micron, ground aluminum hydroxide used as a flame retardant and smoke suppressant, produced in Bergheim, Germany.

Martinal ® ON-904

Martinal® ON-904 aluminum hydroxide is one of a series of aluminium hydroxides designed to offer high loadings with low viscosity behavior as flame retardant filler in synthetic resin, produced in Bergheim, Germany.

Martinal ® ON-906

Martinal® ON-906 aluminum hydroxide is one of a series of aluminium hydroxides designed to offer high loadings with low viscosity behavior as flame retardant filler in synthetic resin, produced in Bergheim, Germany.

Martinal ® ON-908

Martinal® ON-908 aluminum hydroxide is one of a series of aluminium hydroxides designed to offer high loadings with low viscosity behavior as flame retardant filler in synthetic resin, produced in Bergheim, Germany.

MoldX ® P12

MoldX® P12 aluminum hydroxide is optimized for pultrusion, resin infusion and vacuum bag molding applications. The product's narrow particle size distribution gives superb processing performance with fiberglass content greater than 60% by weight.

MoldX ® P18

MoldX® P18 aluminum hydroxide is for pultrusion, resin infusion, CIPP and vacuum bag molding applications. It's particle size distribution with top size particles of less than 18 microns gives superb processing performance at fiberglass contents greater than 50% by weight.

MoldX ® S45

MoldX® S45 aluminum hydroxide is engineered to allow higher loadings versus standard aluminum hydroxide products and offers excellent processing from 180 phr to as high as 240 phr.

SB 336

SB-336 aluminum hydroxide is a ground high whiteness flame retardant with an average median particle size of 15.5 microns in adhesives, caulks and sealants applications.

SB 36

SB-36 aluminum hydroxide is a ground high whiteness flame retardant with an average median particle size of 25 microns in adhesives, caulks and sealants applications.

Vertex ® 100SA

Vertex® 100 SA is an aminosilane-treated product that provides superior fire performance and enhanced mechanical properties when used to make fire-rated polymeric compounds. The silane treatment promotes coupling of the magnesium hydroxide to the polymer used, providing high dispersion quality and thus enhanced compound performance especially for the high-loading applications. Vertex 100SA can be used in polyolefins and polyamides such as Nylon 6 and Nylon 6,6.

Vertex ® 60HST

Vertex® 60 HST magnesium hydroxide is a fatty acid treated grade.

Zerogen ® 100 SP

Zerogen® magnesium hydroxide products provide excellent fire retarding and smoke suppression performance for the thermoplastic and elastomeric compounds. The Zerogen® 100 products are characterized by higher chemical purity compared to Zerogen® 50 products and therefore provide further enhanced performance in compound applications where superior electrical properties are needed, e.g. cable primary insulation materials. Zerogen® 100 SP is an ultrafine particle size; low surface area magnesium hydroxide with vinylsilane treatment designed to provide excellent compounding rheology, high-quality powder dispersion and enhanced compound mechanical properties in such polymers as polyolefins, EPR/EPDM and other elastomers.

Zerogen ® 100 SVT

Zerogen® magnesium hydroxide products provide excellent fire retarding and smoke suppression performance for the thermoplastic and elastomeric compounds. The Zerogen® 100 SVT products are characterized by high chemical purity thus suitable for use in the compound applications where excellent electrical properties are needed, such as in cable insulation materials. Zerogen® 100 SVT is an ultrafine particle size 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.

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.