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| Name | Exterior view | Chemical composition | Complex carrier | Characteristics |
|---|---|---|---|---|
| First ZnO-N50GE |  |
Chemical composition: 50% nano-zinc + 25% EPDM | Complex carrier: EPDM/SBR | Characteristics: Inorganic activators for natural and synthetic rubber; featuring nanoscale powder particle size, high specific surface area, and exceptional activity, these additives require minimal usage while effectively replacing conventional zinc oxide—thus helping to reduce both costs and product weight. Additionally, the resulting products exhibit excellent transparency, making them a viable alternative to basic zinc carbonate (transparent zinc) in applications requiring clear rubber formulations. |
| ZnO-H80 |  |
Chemical composition: Active zinc oxide-coated particles | Complex carrier: / | Characteristics: Inorganic activators for both natural and synthetic rubber are easily dispersible and can be used in large quantities. They enhance the viscosity of the rubber compound, improving shape stability in extruded and free-vulcanized products, as well as the mechanical properties of the vulcanized rubber. These activators are ideal for rubber products such as tires, hoses, belts, and footwear. |
| First ZnO-N50 |  |
Chemical composition: Nano-zinc-coated particles | Complex carrier: / | Characteristics: Inorganic activators for natural and synthetic rubber; featuring nanoscale powder particle size, high specific surface area, and exceptional activity—allowing for reduced usage while effectively replacing conventional zinc oxide, thereby lowering both production costs and product weight. |
| First ZnO-N100 | |
Chemical composition: Nano zinc | Complex carrier: / | Characteristics: Inorganic activators for natural and synthetic rubber; featuring nanoscale powder particle size, high specific surface area, and exceptional activity—allowing for reduced usage while effectively replacing conventional zinc oxide, thereby lowering both production costs and product weight. |
| First ZnO-T40 |  |
Chemical composition: Transparent zinc oxide-coated particles | Complex carrier: / | Characteristics: Inorganic activators for natural and synthetic rubbers sometimes replace zinc oxide; they produce vulcanized rubber with a lighter color, higher transparency, and greater solubility, allowing for higher usage levels. Compared to conventional zinc oxide, these activators exhibit a stronger hardening effect within the rubber compound. They are primarily used in transparent or semi-transparent rubber products—such as footwear materials, elastic rubbers, and brightly colored or pastel-hued everyday items. |
| First ZnO-T50 | |
Chemical composition: Transparent zinc oxide-coated particles | Complex carrier: / | Characteristics: Inorganic activators for natural and synthetic rubbers sometimes replace zinc oxide; they produce vulcanized rubber with a lighter color, higher transparency, and greater solubility, allowing for higher usage levels. Compared to conventional zinc oxide, these activators exhibit a stronger hardening effect within the rubber compound. They are primarily used in transparent or semi-transparent rubber products—such as footwear materials, elastic rubbers, and brightly colored or pastel-hued everyday items. |
| First ZnO-T60 | |
Chemical composition: Transparent zinc oxide-coated particles | Complex carrier: / | Characteristics: Inorganic activators for natural and synthetic rubbers sometimes replace zinc oxide; they produce vulcanized rubber with a lighter color, higher transparency, and greater solubility, allowing for higher usage levels. Compared to conventional zinc oxide, these activators exhibit a stronger hardening effect within the rubber compound. They are primarily used in transparent or semi-transparent rubber products—such as footwear materials, elastic rubbers, and brightly colored or pastel-hued everyday items. |
| First ZnO-T70 | |
Chemical composition: Transparent zinc oxide-coated particles | Complex carrier: / | Characteristics: Inorganic activators for natural and synthetic rubbers sometimes replace zinc oxide; they produce vulcanized rubber with a lighter color, higher transparency, and greater solubility, allowing for higher usage levels. Compared to conventional zinc oxide, these activators exhibit a stronger hardening effect within the rubber compound. They are primarily used in transparent or semi-transparent rubber products—such as footwear materials, elastic rubbers, and brightly colored or pastel-hued everyday items. |
| First ZnO-T100 | |
Chemical composition: 100% Transparent Zinc Oxide | Complex carrier: / | Characteristics: Inorganic activators for natural and synthetic rubbers sometimes replace zinc oxide; they produce vulcanized rubber with a lighter color, higher transparency, and greater solubility, allowing for higher usage levels. Compared to conventional zinc oxide, these activators exhibit a stronger hardening effect within the rubber compound. They are primarily used in transparent or semi-transparent rubber products—such as footwear materials, elastic rubbers, and brightly colored or pastel-hued everyday items. |
| First ZnO-H40 | |
Chemical composition: Active zinc oxide-coated particles | Complex carrier: / | Characteristics: Inorganic activators for natural and synthetic rubber are easily dispersible and can be used in large quantities. They enhance the viscosity of the rubber compound, improving both the shape stability of extruded and free-vulcanized products, as well as the mechanical properties of the vulcanized rubber. These activators are ideal for use in rubber products such as tires, hoses, belts, and footwear. |
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