Specializing in the plating of magnesium alloy
-electroless nickel
-gold plating
-silver plating
-chroming
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AZ31B is a common commercial magnesium alloy, it has good mechanical properties ,widely used in electronic communications, transportation
At present, the surface corrosion prevention technology of magnesium alloy in industrial production generally has the following four methods or their combination.
1.Chemical conversion coating
2.Organic high polymer coating
3.Anodizing
4.Electroplating and electroless plating
the surface treatment of magnesium alloy include electroplating nickel, electroless nickel plating, micro-arc oxidation, anodic oxidation etc.
Magnesium alloy is an ideal dissolvable material with high specific strength, low density, fast dissolution and excellent casting performance.
Electroplating or electroless plating is a Magnesium and Mg alloys surface treatment method to obtain superior corrosion resistance and electrical, electromagnetic and decorative properties at the same time.
Electroless nickel plating on Magnesium alloy
Mg alloy products with electroless nickel plating have high performance and high added value, it is especially suitable for aerospace, military and communication equipment
Electroless nickel plating on magnesium alloy die casting part (AZ91)
Electroless nicke on magnesium alloy extruded part (AZ31)
Electroless nickeon magnesium alloy on pure magnesium
Electroless nickel is the most widely used form of electroless plating. It offers unique deposit properties including uniformity of deposit properties within deep recesses, bores, and blind holes.
At the same time,It provides unique physical characteristics including excellent corrosion, wear and abrasion resistance, ductility, lubricity, solderability, electrical properties, and hardness.
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Electroless Nickel plating on dissolvable Magnesium aluminum bridge plug could avoid the dissolvable bridge plug to react with the external liquid before fracturing, decrease the abrasion during the delivery period, maintain the functional integrity, and reduce the frictional resistance between the bridge plug and the well wall.
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