Deposition of wear resistant nickel-tungsten plating systems
First Claim
1. A method for forming a wear resistant nickel tungsten (NiW) plating system, the method comprising:
- preparing a NiW plating bath containing a particle suspension, preparing comprising;
introducing wear resistant particles into the NiW plating bath, the wear resistant particles comprising alumina particles;
selecting an amount of at least one charged surfactant based on a particle size of the alumina particles, a cumulative surface area of the alumina particles and the quantity of the alumina particles in the NiW plating bath, the at least one charged surfactant comprising sodium dodecyl sulfate and cetyltrimethylammonium bromide;
adding to the NiW plating bath the at least one charged surfactant, the at least one charged surfactant binding with the wear resistant particles to form a particle-surfactant complex; and
electrodepositing the wear resistant NiW plating system onto a surface of a component at least partially submerged in the NiW plating bath, the wear resistant NiW plating system comprised of a NiW matrix in which the wear resistant particles are embedded.
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Accused Products
Abstract
Methods for depositing wear resistant NiW plating systems on metallic components are provided. In various embodiments, the method includes the step or process of preparing a NiW plating bath containing a particle suspension. The NiW plating bath is prepared by introducing wear resistant particles into the NiW plating path and adding at least one charged surfactant. The first type of wear resistant particles and the first charged surfactant may be contacted when introduced into the NiW plating bath or prior to introduction into the NiW plating bath. The at least one charged surfactant binds with the wear resistant particles to form a particle-surfactant complex. The wear resistant NiW plating system is then electrodeposited onto a surface of a component at least partially submerged in the NiW plating bath. The resulting wear resistant NiW plating system comprised of a NiW matrix in which the wear resistant particles are embedded.
16 Citations
9 Claims
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1. A method for forming a wear resistant nickel tungsten (NiW) plating system, the method comprising:
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preparing a NiW plating bath containing a particle suspension, preparing comprising; introducing wear resistant particles into the NiW plating bath, the wear resistant particles comprising alumina particles; selecting an amount of at least one charged surfactant based on a particle size of the alumina particles, a cumulative surface area of the alumina particles and the quantity of the alumina particles in the NiW plating bath, the at least one charged surfactant comprising sodium dodecyl sulfate and cetyltrimethylammonium bromide; adding to the NiW plating bath the at least one charged surfactant, the at least one charged surfactant binding with the wear resistant particles to form a particle-surfactant complex; and electrodepositing the wear resistant NiW plating system onto a surface of a component at least partially submerged in the NiW plating bath, the wear resistant NiW plating system comprised of a NiW matrix in which the wear resistant particles are embedded. - View Dependent Claims (2, 3, 4, 5, 6, 8, 9)
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7. A method for forming a wear resistant nickel tungsten (NiW) plating system, the method comprising:
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preparing a NiW plating bath containing a particle suspension, preparing comprising; introducing wear resistant particles into the NiW plating bath, the wear resistant particles comprising hexagonal boron nitride particles; selecting an amount of at least one charged surfactant based on a particle size of the wear resistant particles and a quantity of the wear resistant particles in the NiW plating bath, the at least one charged surfactant comprising sodium dodecyl sulfate and PEG-8 methyl ether dimethicone; adding to the NiW plating bath the at least one charged surfactant, the at least one charged surfactant binding with the wear resistant particles to form a particle-surfactant complex; and electrodepositing the wear resistant NiW plating system onto a surface of a component at least partially submerged in the NiW plating bath, the wear resistant NiW plating system comprised of a NiW matrix in which the wear resistant particles are embedded.
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Specification