US1373273A

US1373273A - Electrode for electrolytic recovery of metals from solutions

Info

Publication number: US1373273A
Application number: US335596A
Authority: US
Inventors: Tainton Urlyn Clifton
Original assignee: Individual
Current assignee: Individual
Priority date: 1919-11-04
Filing date: 1919-11-04
Publication date: 1921-03-29
Anticipated expiration: 1938-03-29

Description

u. CfTAINTON.

ELECTRODE FOR ELECTROLYTIC RECOVERY OF METALS FROM SOLUTION APPLICATION FILED ov. 4. 1919.

ifiysgm Patented Mar. 29, 1921.

entree srarss URLYN CLIFTON TAINTON, OF MARTINEZ, CALIFORNIA.

. ELECTRODE FOR ELECTROLYTIC Specification of Letters Patent.

RECOVERY OF METALS FROM SOLUTIONS.

Patented Mar. 29, 11921.

Application filed November 4, 1919. Serial No. 335,596.

-county, State of California, United States ofAmerica, have invented certain new and I l useful Improvements in Electrodes for Electrolytic'Recovery of Metals from Solut1ons,

. graphite.

of which the following is a specification. v

The present invention relates to apparatus for electrolytically precipitating gold and other metals from their solutions, more particularly solutions derived from the cyanid process; said apparatus being of the kind in which the pregnant solution is caused to pass through a permeable cathode, the interstices of which are very small. Apparatus of this kind is referred to in the specifications of British Patents No. 19669 of 1913, and No. 11336 of 191.5, which describe a cathode formed of filter cloth or paper supporting a deposited cake of powdered The object of the present inven tion is to provide anovel form of permeable electrode which is more convenient and reliable for use as a cathode than those hith;

' 'erto used.

According to this invention, the cathode consists of a sheet of paper Or felted fiber in which comminuted conducting material is incorporated, As a conducting material graphite has been found suitable; and it is preferred to use graphite prepared in the electric furnace. The gra hite is preferably incorporated by mixing it with the pulp from which the paper is made. proportion of graphite to fiber is as high as possible consistent with reasonable mechanical strength of the completed sheet; and in practice it has been possible to make a satisgraphitepowder to 15% by weight of'fiber.

As'regards the fibrous material from.

which the paper is made, generally speaks ing any vegetable fiber capable of felting to produce a coherent sheet, maybe employed; but it is for practical reasons desirable to-select a material of which the individual fibers are susceptible of being readily coated by'the graphite. The extent to which the fiber possesses this characteristic can readlly be ascertained by microscopic examination of a torn section of the completed sheet.

In practically carrying out the invention where no paper-making plants exist, I have made such sheets by re-pulping previously The by weight of made paper, and the most satisfactory results have been attained by the use of a common grade of filter paper such as'is used in cyanid clean-up presses. This paper is cut up into strips, boiled with plain water, and disintegrated in a vessel fitted with revolving arms. Graphite powder is then added and mingled with the paper pulp by further operation of the arms. The thin pulp thus produced is poured on to a sieveframe and suction is applied to the underside of the sieve to' accelerate the draining off of the water. A sheet of paper results which, after being dried, is ready for use, and in substance and strength it somewhat resembles thick blotting paper. A depolarizer, such as powdered ferric oxid, may advantageously be incorporated by adding it to the pulp.

It is generally desirable mechanically to strengthen the sheet by a suitable reinforcement and for this purpose I first form one thickness of paper in the frame, and then place on this a sheet of coarse muslin and then pour on a further layer of pulp, which is drained as before, producing a sheet of paper with the muslin sheet in the center of its thickness.

My invention is illustrated in the accompanying drawings, in which:

Figure 1 is a plan view of a portion of one of the electrodes with the superposed layers folded up.

Fig. 2 is a similar-view of another form of electrode; and

Fig. 3 shows a section along the line 33 of Fig. 2. I

In, ig. 1, 1 represents two external layers of paper containing comminuted graphite, with a sheet ofmuslinQ interposed between them. 1

A- cathode sheet prepared as described can advantageously be utilized in the filter press type of electrolytic cell described in removed and the gold recovered in any suit:

For example the sheet may be ignited and the gold recovered byafu able manner.

sion; or the gold may be dissolved by aqua regia after which the sheet material is repulped for making fresh sheets.

A somewhat modified form of electrode is made by sewing wire cloth to a filter cloth and making the paper on the wire cloth so as to incorporate the latter. Such an electrode can be applied directly to the corrugated filter leaf, the electrical conductor being connected to the wire cloth.

What I claim as my invention and desire to secure by Letters Patent is 1. The herein described permeable electrode for the electrolytic precipitation of metals from their solutions which comprises a paper sheet in which is incorporated a comminuted conductingmaterial.

2. The herein described permeable electrodefor the electrolytic precipitation of metals from their solutions which comprises a paper sheet in which is incorporated comminuted graphite.

3. The herein described permeable electrode for the electrolytic precipitation of metals from their solutions which comprises a paper sheet in which is incorporated a comminuted conducting material and a depolarizer.

- 4. The herein described permeable electrode for the electrolytic precipitation of metals from their solutions which comprises a felted fiber sheet in whichis incorporated a comminuted conducting material and a woven reinforcement united to the sheet.

5. The herein described permeable electrode for the electrolytic precipitation of metals from their solutions which comprises a felted fiber sheet in which is incorporated a comminuted conducting material and a metallic woven re-inforcement united to the sheet.

6. The herein described permeable electrode for the electrolytic precipitation of metals from their solutions which comprises a paper sheet in which is incorporated comminuted graphite-and a woven re-inforcement united to the sheet.

7 The herein described permeable electrode for the electrolytic precipitation of metals from their solutions which comprises a paper sheet in which is incorporated comminuted graphite and a metallicwoven re inforcement united to the sheet.

8. The herein described permeable electrode for, the electrolytic precipitation of metals from their solutions which comprises a paper sheet in which is incorporated a comminuted conducting material, a metallic woven re-inforcement throughout the substance of the sheet and a textile united to the sheet.

9. The herein described permeable electrode for the electrolytic precipitation of metals from their solutions which comprises two or more paper sheets in which is incorporated a comminuted conducting material and a textile layer between the sheets.

10. The herein described permeable cathode for the electrolytic precipitation of met als from their solutions which comprises a cathode leaf, a woven metallic element thereon and a paper sheet in which is incor porated comminuted graphite upon said metallic element. f

11. The hereirr described process for making a permeable electrode for the electrolytic precipitation of metals from their solutions, which. comprises incorporating com minuted graphite in paper pulp, and preparing a paper sheet. therefrom.

In testimony whereof I aflix my signature.

'uRLYN CLIFTONTAI-NTON.