Fully harness the properties of industrial hard chrome plating even in harsh corrosive environments!
When thick plating is applied, cracks are more likely to occur in the plating layer. If these cracks penetrate to the base material, the liquid that enters from there will accelerate corrosion. Therefore, by applying an electroless nickel layer with few cracks and high corrosion resistance as a base for industrial hard chrome plating, we have achieved the ability to fully utilize the properties of industrial hard chrome plating even in harsher corrosive environments. 【Features of Electroless Nickel + Chrome Plating】 ■ Hardness ■ Wear Resistance ■ Heat Resistance ■ Corrosion Resistance *For more details, please request materials or view the PDF data available for download.
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【Electroless Nickel + Chrome Plating】 ○ Electroless nickel has fewer cracks and high corrosion resistance. ○ Chrome plating offers advantages in hardness and wear resistance. ○ Electroless nickel is applied as a base for industrial hard chrome plating. ○ It is possible to maintain the advantages of thick industrial chrome plating while achieving a more corrosion-resistant coating. ○ Electroless nickel 30μm + industrial chrome 5 to 150μm or more. ● For more details, please contact us or download the catalog.
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【Main Uses】 ○ Rolls (for printing, for LCD films, and others) ● For more details, please contact us or download the catalog.
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Characteristics of Chrome Plating The history of industrial hard chrome plating is just over 80 years since it was industrialized. However, its range of applications is surprisingly diverse. This is due to its excellent wear resistance, heat resistance, and corrosion resistance, making it an indispensable treatment method for machine parts that are subjected to increasingly harsh operating conditions year by year. Regarding its performance and characteristics, first, due to its high hardness, applying it to machine parts and tools significantly improves wear resistance. Molding dies benefit from better release properties, resulting in more aesthetically pleasing products and greatly extending the lifespan of the molds. Additionally, in terms of corrosion resistance, it is active in the fields of chemical and food industries, and because it can be applied in varying thicknesses and selectively, it contributes immensely to the industrial sector by enabling the repair of parts and the regeneration of worn components.