US20060121302A1

US20060121302A1 - Wire-arc spraying of a zinc-nickel coating

Info

Publication number: US20060121302A1
Application number: US11/006,415
Authority: US
Inventors: Gary Erickson; Mark Pollack; Luong Tran; Chris Zervas; Paul Cacciola
Original assignee: Boeing Co
Current assignee: Boeing Co
Priority date: 2004-12-07
Filing date: 2004-12-07
Publication date: 2006-06-08
Also published as: WO2006086042A2; US20090304942A1; WO2006086042A3

Abstract

A zinc-nickel substrate is applied to a component by using a zinc-nickel wire formed with between about 8 to 20 percent nickel and between about 80 to 90 percent zinc. This formed zinc-nickel wire is held in a two wire electric arc spray system to spray the zinc-nickel substrate on the component, such as an aircraft part, while operating the two wire electric arc spray system within a specific range of operating parameters.

Description

BACKGROUND OF THE INVENTION

1. Field of the Invention
This invention generally relates to thermal spraying and, more particularly, to an improved wire for and method of wire-arc spraying of zinc-nickel protective coatings on surfaces subject to corrosion and erosion.
2. Description of the Prior Art
Currently various components of aircraft and wind and water power generating units, as well as components of other devices used in corrosive environments are coated with a protective coating by electroplating. For example, aircraft surfaces may be electroplated with cadmium or cadmium-titanium coatings. However, increased restrictions on processes that utilize hazardous materials, such as cyanide solutions, has led to increased prices for producing components employing such hazardous materials and a constantly reduced number of parties who wish to and/or have the capabilities to properly handle and dispose of such hazardous materials. Furthermore, when producing known components having a zinc-nickel coating thereon by electroplating, a post plate processing such as a hydrogen embrittlement bake must be performed, adding to the time to produce and cost thereof.
It has recently been found that wire-arc spraying of zinc-nickel protective coatings on aircraft components may be satisfactorily performed, without producing or using hazardous materials, if the correct mixture of zinc-nickel is use in the arc wires.
In known two wire electric arc spray systems (also known as twin-wire, arc spray or wire arc spray), a direct-current (d.c.) electric arc is struck between two consumable electrodes (wires) resulting in the direct melting of the electrodes. Since the wires become molten due to the electric arc, the efficiencies of the process are considerably greater than those of other thermal spray processes. Atomizing gas, such as air or nitrogen, located behind the point where the two wires meet, is used to strip the continuously formed molten material from the melting wires that are fed at a fixed rate into the arc and melted. The velocity of the atomizing gas typically ranges from 30 to 90 SCFM. The physical effects associated with the atomizing gas are twofold; namely, 1) the production of finer molten particles and 2) the acceleration of the produced particles toward a substrate being coated.
As with any thermal process, heat is generated during a thermal spray process. In a two wire electric arc wire spray system the wire itself results in the least transfer of heat due to the fact that the only heat generated comes from the melting of the two wires in the electric arc. Whereas, the majority of other thermal spray processes utilize one or more fuel gases, such as hydrogen or propylene, as a part of the process to create similar molten materials, creating more heat. And, since the transfer of heat into the substrate being coated is a critical factor that affects the structural integrity of the component being coated, the heat transfer must be properly controlled. Therefore, with the two wire electric arc system, compressed air is blown on the component to maintain an acceptable temperature; while with other thermal spray processes carbon dioxide and compressed air cooling is required to maintain the temperature of the substrate within acceptable levels. This requirement to use additional cooling affects both flow time and the cost to coat components.
Additionally, material feed rates and deposit efficiencies of electric arc wire systems are typically higher than those of other thermal spray processes. In terms of the types of materials that can be sprayed through electric arc wire systems, the wires must be conductive materials that can be formed into wires; however, in some circumstances, cored wires having cermet materials as a filler core may also be used.
Since electric arc wire systems produce improved results with more controlled heating and without producing or using hazardous materials, there exists a need in the art for an improved wire for use with and an improved method for wire-arc spraying of zinc-nickel protective coatings on surfaces subject to corrosion and erosion.

SUMMARY OF THE INVENTION

It is, therefore, a general object of the present invention to provide an improved wire for use in a wire arc spray system. It is a particular object of the present invention to provide an improved method of electric arc spraying zinc-nickel wire on a substrate. It is a further particular object of the present invention to provide an improved zinc-nickel wire for use in a two wire electric arc spray system. It is yet another particular object of the present invention to provide an improved zinc-nickel wire for use in a two wire electric arc spray system having a composition of from about 8 to 20 percent nickel and about 80 to 92 percent zinc. It is a still further particular object of the present invention to provide an improved zinc-nickel wire for use in a two wire electric arc spray system utilizing between about 24 to 36 volts, about 80 to 200 amperes and an atomizing pressure of from about 80 to 120 psig. It is yet another particular object of the present invention to provide an improved method of electric arc spraying a zinc-nickel wire having from about 8 to 20 percent nickel and about 80 to 92 percent zinc onto a substrate. And, it is yet another particular object of the present invention to provide an improved method of electric arc spraying a zinc-nickel wire in a system utilizing between about 24 to 36 volts, about 80 to 200 amperes and an atomizing pressure of from about 80 to 120 psig.
These and other objects and advantages of the present invention are achieved by forming a zinc-nickel wire from between about 8 to 20 percent nickel and about 80 to 92 percent zinc. This formed wire is used in an improved method of spraying a zinc-nickel substrate on a component by means of a two wire electric arc spray system within a given range of machine parameters.

BRIEF DESCRIPTION OF THE DRAWING

The objects and features of the present invention, which are believed to be novel, are set forth with particularity in the appended claims. The present invention, both as to its organization and manner of operation, together with further objects and advantages, may best be understood by reference to the following description, taken in connection with the accompanying drawings, in which:
FIG. 1 is a schematic view showing a cross-sectional view of an electrical twin wire arc system for use in a preferred method of the present invention; and
FIGS. 2 a-2 c are schematic cross-sectional views of various zinc-nickel wires of the present invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

The following description is provided to enable any person skilled in the art to make and use the invention and sets forth the best modes contemplated by the inventors of carrying out their invention. Various modifications, however, will remain readily apparent to those skilled in the art, since the generic principles of the present invention have been defined herein specifically to describe an improved zinc-nickel wire and a method of spraying a zinc-nickel coating onto a component, such as an aircraft part, by use of an electrical twin wire arc system operated at predetermined parameters, with the improved zinc-nickel wire.
Turning now to the drawings, FIG. 1 shows a currently preferred embodiment of an electrical twin wire arc system or gun used to spray a zinc-nickel substrate onto a selected component, such as an aircraft part. The system or gun is of a known type, but is operated within specifically selected and controlled parameters for the unique zinc-nickel wire, described below, used therewith. In the preferred embodiments of the method of the invention, the voltage of the system or gun is maintained at about 24 to 36 volts, while the amperage is maintained at about 80 to 200 amperes and the pressure of the atomizing air is maintained at about 80 to 120 psig. In a currently preferred embodiment of the method of the invention the system or gun is operated at about 30 volts and about 120 amperes, with the atomizing air pressure about 100 psig.
In one aspect of the present invention, the zinc-nickel wire used in the two wire electric arc spray system is fabricated as shown in FIG. 2 a by forming a zinc wire and electroplating a commercially available nickel plating to a thickness that achieves or defines a desired wire composition of from between about 8 to about 20 percent nickel and the balance being zinc from between about 80 to 92 percent. With the optimal concentration of nickel in the wire being between about 10 to 12 percent and the optimal concentration of zinc being between about 88 to 90 percent. In one currently preferred embodiment the wire, the concentration of nickel is about 10 percent and the concentration of zinc is about 90 percent.
In accordance with another aspect of the present invention, the zinc-nickel wire used in the two wire electric arc spray system is fabricated as shown in FIG. 2 b by forming a zinc-nickel alloy melt that is then drawn to a final wire diameter in a known manner. Again, the preferred wire composition is from between about 8 to about 20 percent nickel with the balance being zinc from between about 80 to 90 percent. The optimal concentration of nickel in the wire is about 10 to 12 percent and the optimal concentration of zinc in the wire is about 88 to 90 percent.
In accordance with still another aspect of the present invention, the zinc-nickel wire used in the two wire electric arc spray system is fabricated as shown in FIG. 2 c by forming a cored wire having a tubular zinc sheath with a finite amount of nickel powder in the core. The ends of the zinc sheath are sealed and the tube is drawn to the required wire diameter in a known manner. Again, the preferred wire composition is from between about 80 to 90 percent zinc in the sheath and between about 8 to about 20 percent powdered nickel in the core. The optimal concentration of powdered nickel in the core of the wire is about 10 to 12 percent and the optimal concentration of zinc in sheath of the wire is about 88 to 90 percent.
The preferred composition of the zinc-nickel wire for use as consumable electrodes in the two wire electric arc spray system or gun was arrived at by utilizing the following parameters: corrosion resistance, plating adhesion, paint adhesion, condensing humidity, torque tension test, filiform corrosion, microstructure analysis, coating compositions and residual stress.
Those skilled in the art will appreciate that various adaptations and modifications of the just-described preferred embodiments may be configured without departing from the scope and spirit of the invention. Therefore, it is to be understood that, within the scope of the appended claims, the invention may be practiced other than as specifically described herein.

Claims

1. A zinc-nickel wire for use as an electrode in a two wire electric arc spray system comprised of:

from between about 8 to about 20 percent nickel and from between about 80 to 92 percent zinc.

2. The zinc-nickel wire of claim 1 wherein the zinc-nickel wire is formed from an elongated zinc wire with nickel electroplated around the elongated zinc wire to a thickness that achieves a desired zinc-nickel wire composition.

3. The zinc-nickel wire of claim 2 wherein the concentration of nickel in the zinc-nickel wire is between about 10 to 12 percent and the concentration of zinc is between about 88 to 90 percent.

4. The zinc-nickel wire of claim 3 wherein the concentration of nickel in the zinc-nickel wire is about 10 percent and the concentration of zinc is about 90 percent.

5. The zinc-nickel wire of claim 1 wherein the zinc-nickel wire is formed from a cored wire having a tubular zinc sheath with a nickel powder in the core.

6. The zinc-nickel wire of claim 5 wherein the concentration of nickel in the zinc-nickel wire is between about 10 to 12 percent and the concentration of zinc is between about 88 to 90 percent.

7. The zinc-nickel wire of claim 1 wherein the zinc-nickel wire is formed from a zinc-nickel alloy melt that is drawn to a final desired diameter.

8. The zinc-nickel wire of claim 7 wherein the concentration of nickel in the zinc-nickel wire is between about 10 to 12 percent and the concentration of zinc is between about 90 to 88 percent.

9. A method of forming a zinc-nickel substrate on a component comprising the steps of:

utilizing a two wire electric arc spray system to spray zinc-nickel on the component;

inserting zinc-nickel wire in the two wire electric spray system as electrodes;

operating the two wire electric spray system within a specific range of operating parameters; and

forming the zinc-nickel wire from between about 8 to about 20 percent nickel and from between about 80 to 92 percent zinc.

10. The method of claim 9 wherein the two wire electric spray system is operated between about 24 to 36 volts, while maintaining between about 80 to 200 amperes with pressurized atomizing air maintained at between about 80 to 120 psig.

11. The method of claim 10 wherein the two wire electric spray system is operated at about 30 volts and about 120 amperes, with the atomizing air pressure at about 100 psig.

12. The method of claim 11 wherein the zinc-nickel wire is formed from an elongated zinc wire with nickel electroplated around the elongated zinc wire to a thickness that achieves a desired zinc-nickel wire composition.

13. The method of claim 12 wherein the concentration of nickel in the zinc-nickel wire is about 10 percent and the concentration of zinc is about 90 percent.

14. The method of claim 11 wherein the zinc-nickel wire is formed from a cored wire having a tubular zinc sheath with a nickel powder in the core.

15. The method of claim 11 wherein the zinc-nickel wire is formed from a zinc-nickel alloy melt that is drawn to a final desired diameter.

16. A zinc-nickel wire for use as an electrode in a two wire electric arc spray system comprised of:

from about 10 percent nickel and from about 90 percent zinc.

17. The zinc-nickel wire of claim 16 wherein the zinc-nickel wire is formed from an elongated zinc wire with nickel electroplated around the elongated zinc wire to a thickness that achieves a desired zinc-nickel wire composition.

18. The zinc-nickel wire of claim 16 wherein the zinc-nickel wire is formed from a zinc-nickel alloy melt that is drawn to a final desired diameter.

19. The zinc-nickel wire of claim 16 wherein the zinc-nickel wire is formed from a cored wire having a tubular zinc sheath with a nickel powder in the core.