Stock material or miscellaneous articles – All metal or with adjacent metals – Composite; i.e. – plural – adjacent – spatially distinct metal...
Reexamination Certificate
2003-03-27
2004-05-18
Jones, Deborah (Department: 1775)
Stock material or miscellaneous articles
All metal or with adjacent metals
Composite; i.e., plural, adjacent, spatially distinct metal...
C428S620000, C428S650000, C428S652000, C428S539500, C427S304000, C427S305000
Reexamination Certificate
active
06737173
ABSTRACT:
BACKGROUND OF THE INVENTION
This invention relates to a pretreating method before plating, in particular, to a method of pretreating composites of a metallic and a non-metallic material, as well as composites of a metallic and a non-metallic material having a highly adherent coat plated thereon. The invention further relates to platings that can be applied to electronic materials as for heat sinks and which have sufficient reliability to withstand installation on vehicles.
In the prior art, metals such as Al need to be soldered to hybrid IC boards if they are to be used as for heat sinks and to this end, a plating is applied to the metal surface. Plating is also required if composites comprising metals such as Al and Mg that are reinforced with non-metals such as SiC, Al
2
O
3
, AlN and C are to be used for heat sinks. Unless the platings are uniform and have good adhesion, they cannot exhibit the intended effect due, for example, to the separation of the IC board from the soldered metal together with the plating. A method that can apply reliable and uniform platings to composites of a metallic material (e.g. Al) and a non-metallic material is yet to be established on a commercial scale. Described below are the conventional methods for plating metallic materials (e.g. Al) or non-metallic (non-conductive) materials (e.g. ceramics) individually, as well as for plating composites.
For plating metallic materials such as Al and Mg, preliminary treatments such as etching and pickling are first performed and then the zincate conversion process is applied, which comprises treatment in a bath based on an alkali solution of zinc oxide so as to remove the thin oxide film from the surface while at the same time zinc is substitution precipitated to form a highly adherent zinc film as an intermediate layer, followed by Ni or otherwise plating.
If the non-metallic material is a non-conductive material such as ceramics or plastics, it is first immersed in a colloidal solution (catalyst fluid) based on palladium chloride and tin chloride, then immersed in an acid (sulfuric acid or hydrochloric acid) solution (accelerator fluid) to activate palladium so that palladium nuclei are deposited on the surface to be plated, then followed by electroless Ni plating or otherwise to have a conductive coat precipitated around the deposited palladium nuclei. In another method, the substrate is first immersed in a hydrochloric acid solution containing tin chloride (sensitizer fluid) so that tin is adsorbed on the hydrophilized surface; the substrate is then immersed in a palladium activating fluid comprising palladium chloride (activator fluid) so that a redox reaction is initiated to form palladium nuclei on the surface, then followed by electroless Ni plating or otherwise to have a conductive coat precipitated around the deposited palladium nuclei as in the first method.
Speaking of composites having ceramics (e.g. silicon carbide) or non-metallic (non-conductive) materials (e.g. carbon) added to metallic materials (e.g. Al), it has recently been proposed that the work be immersed in a neutral (pH 5-9) aqueous colloidal palladium solution, preferably after a zincate conversion process is performed, so as to provide enhanced adhesion before electroless plating is performed (Japanese Patent Laid-Open No. 209879/1999).
In order to ensure that plating exhibits the intended effect, a uniform and highly adherent plated coat must be formed. However, if the above-described prior art techniques are employed to perform electroless plating after preliminary treatments on composites of metallic materials (e.g. Al) and non-metallic (non-conductive) materials (e.g. SiC), the following problems have occurred.
If the zincate conversion process is applied to a metallic material, a substitution of zinc for the metal occurs on its surface but only insufficient zinc substitution takes place on the surface of a non-metallic material. Therefore, the subsequently applied Ni plating will become mottled and no uniform coat is obtained. Even if you somehow managed to apply plating, the deposited coat would have very poor adhesion.
In the palladium activation process, the catalyst fluid, the accelerator fluid and the sensitizer fluid are generally acidic and based on chlorides, so if a metal or metals soluble in those acidic chloride solutions are contained in the metallic material of the composite material, the metallic material will dissolve partially and no uniform plating is possible.
In the case of treating the composite with neutral colloidal palladium, the processing solution is neutral and plating is performed without removing the surface oxide film, so there is a concern about adhesion. If more reliable plated coat having better adhesion is required, the zincate conversion process and the like must also be performed but this is not desirable from an economic viewpoint.
SUMMARY OF THE INVENTION
The present invention has been accomplished under these circumstances and has as an object providing an efficient and economical method of performing preliminary treatments before plating a composite of a metallic and a non-metallic material, in which only a small amount of the metallic material dissolves and palladium is also adsorbed uniformly on the non-metallic material to ensure the formation of a uniform and highly adherent plated coat.
Another object of the invention is to provide a composite of a metallic and a non-metallic material having a plated coat of strong adhesion on it.
The present inventors conducted intensive studies with a view to attaining the stated objects and found that the pH range is a crucial parameter to the treatment for palladium activation. Thus, according to its first aspect, the invention provides a pretreating method which comprises the steps of, before applying plating to a composite of a metallic and a non-metallic material, cleaning the surface of the composite to be plated and performing a treatment for palladium activation with a palladium activator fluid at a pH of 2-5.
In a preferred embodiment, the composite is a material for a heat sink on a circuit board.
In another preferred embodiment, the pH of the palladium activator fluid is adjusted with a hydrogencarbonate.
In yet another preferred embodiment, the plating is applied by electroless plating.
According to its second aspect, the invention provides a composite of a metallic and a non-metallic material to which plating has been applied and the plated coat has a peel strength of at least 400 g in a wire-bond pull test with an aluminum wire as applied to the plated coat by ultrasonic bonding.
According to its third aspect, the invention provides a composite of a metallic and a non-metallic material to which plating has been applied and the plated coat has a peel strength of at least 800 g in a wire-bond pull test with an aluminum wire as applied to the plated coat by ultrasonic bonding.
According to its fourth aspect, the invention provides a composite of a metallic and a non-metallic material to which plating has been applied and the plated coat, if it is subjected to a wire-bond pull test with an aluminum wire as applied to it by ultrasonic bonding, has a failure mode which involves break either in the loop or at the neck of the aluminum wire. In a preferred embodiment of the second to the fourth aspects of the invention, the plating is applied by electroless plating.
In another preferred embodiment, the plating is a Ni alloy plating.
In yet another preferred embodiment, a main component of the metallic material is Al, Mg, Cu or Fe and a main component of the non-metallic material is SiC, Al
2
O
3
, AlN or Si
3
N
4
.
In another preferred embodiment, the composite is a material for a heat sink on a circuit board.
THE PREFERRED EMBODIMENTS OF THE INVENTION
A composite of a metallic material (e.g. Al) and a non-metallic material (e.g. SiC) is prepared, degreased in a degreasing fluid comprising sodium borate, sodium phosphate, a surfactant, etc., washed with water, has the surface polished chemically in an acid-based chemical polisher compris
Iyoda Ken
Shimada Susumu
Dowa Mining Co. Ltd.
Frishauf Holtz Goodman & Chick P.C.
Jones Deborah
Savage Jason
LandOfFree
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