US1547408A

US1547408A - Process of manufacture of fibrous and similar products for friction elements or for like purposes

Info

Publication number: US1547408A
Application number: US540212A
Authority: US
Inventors: Buisson Eugene
Original assignee: Francaise du Ferodo SA
Current assignee: Valeo SE
Priority date: 1922-03-01
Filing date: 1922-03-01
Publication date: 1925-07-28
Anticipated expiration: 1942-07-28

Description

Patented July 28, 1925 EUGENE BUISSON, OI PARIS, FRANCE, ASSIGNOR 'IO SOCIETE ANONYHE FRANCAISE DU FEBODO, OI PARIS, FRANCE.

PROCESS OF MANUFACTURE OF FIBBOUS AND SIMILAR rnonuo'rs FOB rme'non ELEMENTS OR FOR LIKE PURPOSES.

No Drawing.

7 '0 all whom it may concern:

Be it known that I, Euoimn Bins-sou, a citizen of the Republic of'France, and residing at Paris, Seine Department, No. 2 line de hateaudun, in the liepublic of France, have invented certain new and use-' ful Processes of Manufacture of Fibrous and Similar Products for Friction Elements or for like Purposes, of which the following is a specification.

This invention relates to a process of manufacture of fibrous and similar products more particularly adapted for use as friction elements or for the construction of friction devices, clutches, brakes or the like.

At the present time there are employed in certain of these devices various friction elements (disks, bands and the like) which are constructed of mrc asbestos woven with cotton and rein orced by metal wires. In these cases the friction surface alone becomes heated, this action being greater in proportion as the friction is greater and of longer duration; the cotton will become carbonized and the disk will assume the well known characteristic black color. According to the present invention this drawback is obviated by causing the fibrous material to become a good conductor metallization of the fibres. The metal which is deposited upon the fibres, preferably by the galvanoplastic process, may in this case be suliieient to bind the fibres together and to insure the cohesion of the same, and where pure asbestos is employed,

for example, it will not be required to weave the same with cotton; or where asbestos woven with cotton is employed, the cotton may be destroyed by ealcination after the weaving and before applying the metal. In order to facilitate the application of metal by the galvanoplastic process, it will be advantageous to insert metal conducting wires in the fibrous material.

The present process can be applied in practice in the following manner:

Asbestos of pure quality, that is, not mixed with any foreign bodies capable of being carbonized when in use (cotton, for example), is prepared in the. flaky state and is slightly moistened with distilled water; it is placed in any suitable molds having the form which is to be assumed later by the piece or object under treatof heat by the Application filed March 1, 1922, Scriat No. 540,212.

ment, such as disks or the like. Care is taken to incorporate into the pasty mass 8. light but rather closely woven gauze of co per wire (wire of 0.1 or 0.2 millimetre ameter at most). The said gauze will serve as the cathode during the metallizing operation. The meshes should have a sufficient size to insure a very close ap lication of the metal deposit upon either si e of the gauze.

'lhe asbestos can also be woven in bands of the desired length and thickness, with or without cotton, by incorporating into the warp thread and,the woof thread, one or more copper wires which has a snflicient section to act as conductors during the metallizing process. If cotton has been combined with the asbestos, the cotton will be destroyed by ealeination after the weaving.

The process is completed by a dipping of the fabric in order to wires, and then by a thorough washing.

After suitable. drying and a sutlicient compression in order to obviate any loosening of the material during the galvanoplas tic operation, the plate or band under treatment, woven or not, is immersed in the galvanoplastic bath and remains therein for the length of time required to produce a sufiieient deposit of cobalt, copper or other suitable metal. This deposit is intimately fixed with the asbestos and is neces essarily of a discontinuous nature, and it acts as the binding substance.

The said substance will be lighter and more effective according as the asbestos shall have been sufliciently compressed in the first place in order to form within the mass a network of small capillary ducts into which the metal deposit will infiltrate, proceeding from the wire gauze and attaining each side of the outer surface, and surrounding the threads of the material which is to be metallized. A thorough washing should evidently be given after removal from the metal depositing bath. After a sufficient dryin the substance can be pressed in suitab e matrices in order to obtain the definite shape, size and thickness to be given to the object, such as a disk or the like. In this manner the material will become a relatively good conductor of heat and is capable of storing up a considerable quantity of heat by reason of the large surface of metallic copper and cobalt comprised therein.

attain the copper- I are subsequently I tion elements and like purposes, consisting stance must be used with caution. To obviate dislocation of the material when in the galvanoplastic bath, it may be found necessary to inclose the article under treatment in a netting which possesses a conslderable rigidity, and preferably of a non-metalllc character (cellulose, for instance). The said netting can be subsequently destroyed dissolving the same in a suitable bath.

A deposit of copper is preferably used for fabrics or agglomerates of asbestos which to be subjected to a very high compression. Should it be desired however to maintain a certain degree of elasticity in the treated mass, a deposit of cobalt is greatly preferred. Cobalt is selected in preference to other metals by reason of the rapidity with which the deposit can be produced. The qualities of this metal are furthermore of great value for the manufacture of friction elements, such as disks and facing for friction clutches, brake bands, and the like.

Claims:

1. A process of manufacture of fibrous products having asbestos as a base for fricof metallizing the asbestos fibres by the electro-plating method in order to connect the said fibres together and to provide for their cohesion,the metal being deposited in such a quantity that there is formed a solid block in which asbestos is uniformly distributed.

2. A process of manufacture of fibrous products having asbestos as a base for friction elements and likepurposes, consisting of introducing into the asbestos mass a light openwork member made of a metal which is good conductor of electricity, of molding the said mass, of then metallizing the asbestos fibres by theelectro-plating method in order to connect the said fibres together and to provide for their cohesion, the metal being deposited in such a quantity that there is formed a solid block in which asbestos is uniformly distributed.

3.-A process of manufacture of fibrous products having asbestos as a base for friction elements and like purposes, consisting of molding under pressure asbestos fibres in the flaky state, of then metallizing the said asbestos fibres by the electro-plating method in order to connect the said fibres together and to provide for their cohesion and of subjecting lastly the block of the metallized fibres to a further compression ina mold.

4. Process of manufacture of fibrous products having asbestos as a base for friction elements and like purposes, consisting of surrounding by a non-metallic network of suitable rigidity, a block of asbestos, of then metallizing the asbestos fibres by the electroplating method in order to connect the said fibres together and to provide for their cohesion, of destroying the network by dissolving the same and of subjecting theblock so obtained to compression. In testimony that I claim the foregoing as my invention, I have signed my name in presence of two subscribing witnesses.

EUGENE BUISSON.

' Witnesses;

GAMILLE BEETRY, MAURICE ROWE.