US1317082A

US1317082A - Radioactive device

Info

Publication number: US1317082A
Authority: US
Publication date: 1919-09-23
Anticipated expiration: 1936-09-23

Description

M. HAHTENHEIM.

RADIOACUVE DEVICE. APPLICATION man MAY21.19I0,

1,317,082. i Patentedsept. 1919.

T/VESSES /VVENTOR l I; ZaAltornej/s UNITED STATES PATENT OFFICE.

MAX HARTENHEIM, 0F PITTSBURGH, PENNSYLVANIA, ASSIGNOR T0 STANDARD CHEMICAL COMPANY, 0F PITTSBURGH, PENNSYLVANIA.

RADIOACTIVE DEVICE.

Specification of Letters Patent. Patented Sept. 23, 1919.

Application filed May 27, 1918. Serial No. 236,750.

To all whom it may concern.'

Be it known that I, MAX HARTENHEIM, a Subject of the German Empire, and a residont of Pittsburgh, in the county of Allegheny and State of Pennsylvania, have invented certain new and useful Improvements in Radioactive Devices; and I do hereby declare the following to be a full, clear, and exact description of the invention, such as will enable others skilled in the art to which it appertains to make and use the same. 4 I

This invention relates to improvements in radioactive devices and more particularly to such as' are especially adaptable for use as separators between the electrodes of a storage battery, to provide radioactive -or ionizing eXciters.

' It has heretofore been proposed to employ radioactive material, such as radium in electric secondary or storage battery cells to provide ionizing exciters for improving the performance of the battery and eforts have been made to distribute the radium evenly in the space between the electrodes. This has been done by using the se arators between th electrodes as carriers of the radium b either coating such separators with material containing radium or by incorporating such material into the separators.

Experience has demonstrated the fact that it is a matter of Vmuch importance that the emitting of the radium rays from the carrying material shall not be obstructed or retarded. The power' of penetra-tion, especially of the alpha rays is so very small that even a few thousandths of an inch are sufficient to absorb all rays and thus make the radium inefficient. This is more pronounced when the material of the separators has comparatively high specific, gravity. When the radium compound is painted onto the surface, the danger above mentioned is reduced as the varnish used is fairly permeable for alpha rays, but this is not entirely. satisfactory'mechanically, as the coating is liable to peel olf and furthermore it is difficult to obtain a coatin of uniform thickness.

The object cfg my invention is toovercome the difficulties and objections above outlined and to provide a structure capable of use as a separator in a storage battery, in which radioactive material shall be supported and carried thereby in a manner to insure the ready egress of the rays of such radioactive material from the supporting material, and at the same time obviate the possibility of the radioactive material peeling oil'.

With this and other objects in view, the invention consists in certain novel features of construction and combinations of parts as hereinafter set forth and pointed out in the claims.

In the accompanying drawings; Figure l is a view of a separator embodying my invention, and Fig. 2 is an enlarged sectional View of one of the threads constituting the separator.

1 represents a separator made of woven threads of a material which shall not be affected b the electrolytefor a storage battery andy which shall be capable .of constituting a suitable carrier for radioactive material and hold the latter in a manner to ,permit the ready egress of radioactive rays so as to permit such rays to be projected through the electrolyte and by their ionizing power serve to reduce the internal resistance of the battery. The material which I find highly ellicient for the body of the separator is glass and the `radioactive material which I prefer to employ is a salt of radium. The glass is spun into threads and these threads are woven to form a sheet in the manner well known in the glass art. The olass threads carry the radioactive material, but it is important that such material shall be located on the exterior of the threads. Although the threads may be Very thin, rays from radium located in the center of the threads have small chance of egress and would be screened or absorbed before they could reach the surface of the threads.

In preparing the threads of which my improved woven separator 1, is composed, a core 2 of ordinary glass is gathered from the pot of molten glass. This is then dipped into a second pot containing radium glass,- Viz., molten glass in which a radium salt is intermixed,--and an outside layer 3 is formed on the core, the thickness f whichlayer is determined according to the requirements of the particular application. The amount of radium wanted is mixed With the glass in the second pot only and the quantity of the radium is such as will provide from one-tenth microgram to five micrograms rof radium for the separator. As the covering of the core with the layer is done while the glass is still in a good liquid condition, the layer will become inte ral with the core and form a solid body. t is well known in the art of glass making that by shaping or drawing glass, the orlginal conditions and proportions of different mal terials or colors are absolutely maintained.

-If for instance, at irst a cane of three' and this thread will consist of a core of plainv glass covered with a radium-glass layer or envelop, and the same proportlons' between the core and layer will s till prevail.

From the above, it w1ll be apparent that the product of spun glass will have a con-- centrad surface of radium, and a smaller amount of-radium may be used than if the glass thread would contain radium distribluted throughout, and furthermore, radium contained in the core portion of the thread would be practically useless.

While I prefer to employ glass as'the carrier or support for t e radium, built-up composite material in which radium can be incorporadA substantially' as above eX- plained, might be employed.

To obtain a distinction between the core and layer, a suitable coloring agent can be TheseV- remesa used in either the core or layer of glass, and to obtain a perfectly solid body, the same nature of glass should be used for the core and for the layer or envelop.

Havingfully described my invention, what I claim as new and desire to secure by Letters-Patent, is

1. A radioactive separator comprising a plurality of woven vitreous threads having radioactive. material incorporated therein, said radioactive material being incorporated in and confined to the vitreous outer portion only of the thread.

2. A radioactive device .comprising a thread having a vitreous core and a vitreouscovering containlng radioactive material surrounding said core and integrally connected therewith.

3. A radioactive device comprisin a plain glass body portion and a glass enve op containing radioactive material surrounding said body portion and integrally connected therewith.

4. A radioactive device comprising a sheet of woven glass threads, said threads each comprising a core of plain glass and an integral covering layer-:containing radioactive material.

In testimony whereof, I have signed this specication in the presence of two subscribing witnesses.

MAX HARTENHEIM. Witnesses:

'ML NEUMARKER, F. H. ALLIsoN.