US1994668A

US1994668A - Metal coating for electroplated articles

Info

Publication number: US1994668A
Application number: US663731A
Authority: US
Inventors: Alexander G Russell
Original assignee: Bell Telephone Laboratories Inc
Current assignee: AT&T Corp
Priority date: 1933-03-31
Filing date: 1933-03-31
Publication date: 1935-03-19
Anticipated expiration: 1952-03-19

Description

mh 19, 1935n A. G. RUSSELL '1,994,668

METAL COATING FR ELECTROPLATED ARTICLES Filed March 3L 1933 UNM@ FIG. 5

/NVENTOR A. GRUSSELL BV y ATTORNEY Patented Mar. 19, 1935 UNITED I STATES PATENT oEFlcE Alexander G. Russell, Red Bank, N. J., assignor to Bell Telephone Laboratories, Incorporated,

a corporation of New ApplicationMarch 31,

3 Claims.

This invention relates to metal coatings for articles, and particularly to metal coatings for nonconducting phonograph records which are'to be electroplated and processed into a permanent c form.

Recording processes, in their present stage of development, consist, in general, in inscribing into a homogeneous wax surface a spiral sound track, coating the sound track with an electro-conducting material, usually a vaporized metal, electroplating a copper negative upon the coated surface, and pressing the electroplated negative into a thermoplastic substance, such as cellulose acetate, to form a reproducible record. The coating is done by placing the record for a brief period into a chamber in which a cathode is vacuously dispersed, and the cathode materials commonly used are goldand silver.L

It has been found that both gold and silver have certain characteristics that are undesirable. When an electroplate is stripped from thel wax record the metal coating comes oi with the electroplate and forms the surface which contacts the thermoplastic material in the press. It is iii change be introduced into the quality of this surface which would tend to roughen the groove of the iinished record and produce surface noise. In the case of gold the pressure and temperature at which the pressing operation is carried on are sumcient to cause the gold to diiuse into the copper and disappear, leaving a copper pressing surface which soon tarnishes and roughens. Silver, while not diiusible into the copper under these conditions, tarnishes quite rapidly on exposure to air and produces a similarly roughened surface.

The object of Athis invention is an improved metal coating for a non-conducting surface which will not diffuse into the electroplate, and will not tarnish on exposure to air.

I have found that palladium can be vacuously dispersed or sputtered as readily as gold and silver, and that it forms a hard coating' which does not tarnish or diffuse into the copper plate. It also has additional desirable features peculiar to its use in record processing apparatus which will be hereinafter detailed.

The accompanying drawing shows the various steps involved in the process of obtaining a Vstamper from an original record.

Fig. 1 is an elevation in section of apparatus used to coat the original metal;

a sputtering record with essential, therefore, that for perfect records no' York 1933, Serial No. 663,731

Fig. 2 is a perspective of an original record sectioned along a diameter;

Fig. 3 is a partial elevation in section of the original record after it has been coated, showing the coating enormously exaggerated;

Fig. 4 shows the record after it has been electroplated; and

Fig. 5 shows a portion of the finished stamper.

The sputtering apparatus illustrated is of the water-cooled type, but this particular type is not indispensible to the successful dispersion of palladium, and any sputtering apparatus adapted to coat a record may be employed. With a watercooled apparatus, however, a special type of record must be used, the form of which is such that the Wax is not subjected to internal stresses arising from an extreme temperature gradient within the wax caused by the hot sputtering process on one side and the cooling system on the other.

The special record is shown in Fig. 2. It comprises a rigid metal or other heat conducting disc the surface of which is slightly recessed to receive a layer of recording wax 11 into which the record is inscribed. The wax layer is thin enough to be a conductor of heat, and the disc 10 is just thick enough to maintain its rigidity when it is handled. l

Referring to Fig. 1 the initial step in the process is clamping the disc 10, with a record inscribed into its wax surface l1, to the water-cooled cover 12 of a sputtering chamber 13 by means of clamps 14. The cover 12 is cooled by circulating cold water through the hollow portion 15. The water may be admitted through port 16 and exhausted through port 1'7. Within the chamber 13 is an annular anode 18 and a disc shaped cathode 19. The cathode is formed by covering a glass disc 20 with a sheet of palladium. The anode and cathode are supported by

insulators

21 and 22, respectively, and are connected to a suitable source of potential 23 by

leads

24 and 25. The chamber 13 is evacuated by means of a suction pump 26, which removes the air from the chamber through an opening 27 at the bottom and center of the chamber 13.

To operate the sputtering apparatus, the wax record is slowly brought to a constant temperature by means of the water circulating through the cover 12, and the chamber 13 is evacuated to a pressure of about .05 millimeter ofmercury, at which point a suitable potential is impressed across the

electrodes

18 and 19, to cause a glow discharge. to take place in the chamber. The discharge is allowed to continue for about ten minutes. at the end of which time the surface 11 valuable property, since the copper master record is thus protected by the wax and can be laid aside i'or a considerable time awaiting further processing without suiering any damage.

When the copper master is to be used in the press, the wax is melted od and the copper master is trimmed and cleaned. It then resembles the master record of Fig. 5. The palladium 28 covers the record surface and is the agency by which the reproducible record is formed, the copper 29 serving merely as a backing for the palladium. It is important, therefore, that the palladium remain 'unchanged throughout the life of the master record, and this has actually been found to be the case. In the pressing operation the ypalladium is subjected to a pressure of about one ton per square inch and a temperature of 300 F. Due to its hardness and inherent resistance to corrosion, the palladium does not diffuse and disappear into the copper under these conditions,

nor does it tarnish or roughen to any appreciable degree. Gold, however, does, in time, diffuse into the copper and disappear, leaving a copper pressing surface whichv soon tarnishes. Silver tarnishes'even more readily than copper and hence is also objectionable.

The advantages claimed for palladium are that it sputters very rapidly, is harder than gold, retains its form even under great pressure and does not tarnish. It has further the property of adhering to the wax master record, and thereby enables the latter to be used as a protective covering for the record for as long as is desired.

What is claimed is: l. A copper stamper for phonograph records surfaced with a transferred layer o! sputtered zo palladium.

2. A thermoplastic phonograph record having a surface coated with sputtered palladium.

3. A wax master phonograph record having a surface coated with sputtered palladium.

ALEXANDER G. RUSSELL.