US671988A - Method of treatment of amalgam containing copper or precious metals. - Google Patents

Method of treatment of amalgam containing copper or precious metals. Download PDF

Info

Publication number
US671988A
US671988A US1474500A US1900014745A US671988A US 671988 A US671988 A US 671988A US 1474500 A US1474500 A US 1474500A US 1900014745 A US1900014745 A US 1900014745A US 671988 A US671988 A US 671988A
Authority
US
United States
Prior art keywords
copper
amalgam
sulfur
precious metals
treatment
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US1474500A
Inventor
Joachim H Burfeind
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
WINFIELD S KEYES
Original Assignee
WINFIELD S KEYES
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by WINFIELD S KEYES filed Critical WINFIELD S KEYES
Priority to US1474500A priority Critical patent/US671988A/en
Application granted granted Critical
Publication of US671988A publication Critical patent/US671988A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Classifications

    • CCHEMISTRY; METALLURGY
    • C22METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
    • C22BPRODUCTION AND REFINING OF METALS; PRETREATMENT OF RAW MATERIALS
    • C22B21/00Obtaining aluminium
    • C22B21/0038Obtaining aluminium by other processes
    • C22B21/0053Obtaining aluminium by other processes from other aluminium compounds
    • C22B21/0061Obtaining aluminium by other processes from other aluminium compounds using metals, e.g. Hg or Mn

Definitions

  • the amalgam as it comes from the mill is put into a vessel provided with a stirring apparatus-say into the clean-up pan. It is then freed from adhering water. The amount of copper in'it is ascertained in the usual manner. Sufficient finely-pulverized sulfur to convert the copper present into copper sulfid (Cu S) is then weighed 0E. The stirrer is set into rapid motion and a portion of the sulfur is added to the cold dry amal' gam. After a short time the sulfur will disappear and the amalgam, which is quite bright again, Will be quite warm. After this more sulfur is added in the above manner until the total amount of sulfur has been added.
  • the amalgam remaining on the strainer is retorted and treated as usual.
  • the copper sulfid will yet contain small globules of amalgam, from which it is freed by washing or otherwise in the usual way.
  • the bullion (gold and silver) resulting from the sotreated amalgam will be sufficiently free from copper, so that it can be at once parted by any of the well-known methods without any preliminary treatment, such as is needed for all methods of parting if the bullion contains over five per cent. of copper.
  • bullion containing, say, up to seventy-five per cent. of copper and twenty-five per cent. gold and silver is most difficult to sample, and in order to obtain a correct sample several meltings are required.
  • Such bullion has to be sent to refiners by express. The refiners will make an extra charge to separate the copper first from the gold and silver and will then add the regular charge for parting gold and silver.
  • the bullion with the above amount of cop per or any other proportion will require a large apparatus forretorting, and the amount of fuel needed for this is large. Melting the retorted bullion requires large crucibles or furnaces and, again, costly fuel. The extra labor required for retorting and melting will far exceed the cost of the small amount of sulfur needed to remove the copper directly from the amalgam according to my method. Thus it will be seen that the copper in the bullion is a source of loss if handled in the usual way.
  • the copper is obtained as copper sulfid, (Cu S,) which can as such be shipped by freight to coppersmelting works, or it may be treated in the usual manner for the production of copper sulfate, or disposed of in any other suitable way.
  • the bullion of gold and silver, or either, obtained by my method will only be subject to parting charges.
  • Silver sulfid can- IOO
  • the action of the water used in my process is to keep the mixture of amalgam and copper sulfid in a condition suitable for the ready separation of the copper sulfid. While cold water maybe used, hot Water shortens the time of treatment. After the sulfur has been incorporated into the amalgam and has combined with the copper present to copper sulfid, the latter is so intimately mixed with the amalgam that it can hardly be seen with the naked eye, the amalgam being perfectly bright, as before the addition of the sulfur and the conversion of the metallic copper to copper sulfid, but somewhat more solid.

Landscapes

  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Manufacturing & Machinery (AREA)
  • Materials Engineering (AREA)
  • Mechanical Engineering (AREA)
  • Metallurgy (AREA)
  • Organic Chemistry (AREA)
  • Manufacture And Refinement Of Metals (AREA)

Description

' the copper present.
U TED STAT S 1 ATENT Fries.
JOAOHIM H. BURFEIND, OF SALT LAKE CITY, UTAH, ASSIGNOR or ONE- HALF TO WINFIELD s. KEYES, OF BUTTE, MONTANA.
METHOD OF TREATMENT OF AMALGAM CONTAINING COPPER 0R PRECIOUS METALS.
SPECIFICATION formingpart or Letters Patent No. 671,988, dated April is, 1901 Application filed April 28, 1900. Serial lie. 14,745. (No specimens.)
To all whom it may concern:
Beitknown that I, J OACHIM H.BURFEIND,a citizen of the United States, and a resident of Salt Lake City, in the county of Salt Lake and State of Utah, have discovered a new and usefulMethod for theTreatmentof Amalgam Containing Copper or Precious Metals, of which the following is an exact and clear description, which will enable any one familiar with metallurgy to use it.
The amalgam as it comes from the mill is put into a vessel provided with a stirring apparatus-say into the clean-up pan. It is then freed from adhering water. The amount of copper in'it is ascertained in the usual manner. Sufficient finely-pulverized sulfur to convert the copper present into copper sulfid (Cu S) is then weighed 0E. The stirrer is set into rapid motion and a portion of the sulfur is added to the cold dry amal' gam. After a short time the sulfur will disappear and the amalgam, which is quite bright again, Will be quite warm. After this more sulfur is added in the above manner until the total amount of sulfur has been added. Stirring is then continued for a short time to insure contact of all the sulfur with The motion of the stirrer is then slowed down to a very low speed and Water is added, preferably boiling water, which is kept at or near that temperature. The copper, which isnow present as copper sulfid (Cu S) in the amalgam, rises at once to the surface of the amalgam, forming a black cover over it under the water. Stirring slowly is now continued until a sample takenof the amalgam from under the copper shows it to be free, or nearly so, from copper. The stirrer is then stopped, and the now very liquid amalgam is drawn off from beneath the copper sulfid. It is then strained, and the quicksilver so strained oif is ready for mill use at once. The amalgam remaining on the strainer is retorted and treated as usual. The copper sulfid will yet contain small globules of amalgam, from which it is freed by washing or otherwise in the usual way. The bullion (gold and silver) resulting from the sotreated amalgam will be sufficiently free from copper, so that it can be at once parted by any of the well-known methods without any preliminary treatment, such as is needed for all methods of parting if the bullion contains over five per cent. of copper.
In the practice used hitherto, bullion containing, say, up to seventy-five per cent. of copper and twenty-five per cent. gold and silver is most difficult to sample, and in order to obtain a correct sample several meltings are required. Such bullion has to be sent to refiners by express. The refiners will make an extra charge to separate the copper first from the gold and silver and will then add the regular charge for parting gold and silver.
The bullion with the above amount of cop per or any other proportion will require a large apparatus forretorting, and the amount of fuel needed for this is large. Melting the retorted bullion requires large crucibles or furnaces and, again, costly fuel. The extra labor required for retorting and melting will far exceed the cost of the small amount of sulfur needed to remove the copper directly from the amalgam according to my method. Thus it will be seen that the copper in the bullion is a source of loss if handled in the usual way. If my method is used, the copper is obtained as copper sulfid, (Cu S,) which can as such be shipped by freight to coppersmelting works, or it may be treated in the usual manner for the production of copper sulfate, or disposed of in any other suitable way. The bullion of gold and silver, or either, obtained by my method will only be subject to parting charges.
In explanation of the chemical reaction taking place in my process I would state that copper has the largest affinity for sulfur of all the heavy metals. If in a finely-divided state it comes into contact with finely-divided sulfur,both combine at ordinary temperature. This reaction is so energetic that if large lots are brought together at once the heat generated is large, in consequence of which, as shown above, the sulfur must be added in small portions to the amalgam, as otherwise the temperature will be so high as to evaporate quicksilver, causing a loss and endangering the operator. not form in the presence of metallic quicksilver. Gold does not combine with sulfur under the conditions obtaining in my process;
Silver sulfid (Ag S) can- IOO The action of the water used in my process is to keep the mixture of amalgam and copper sulfid in a condition suitable for the ready separation of the copper sulfid. While cold water maybe used, hot Water shortens the time of treatment. After the sulfur has been incorporated into the amalgam and has combined with the copper present to copper sulfid, the latter is so intimately mixed with the amalgam that it can hardly be seen with the naked eye, the amalgam being perfectly bright, as before the addition of the sulfur and the conversion of the metallic copper to copper sulfid, but somewhat more solid. To separate the finely'divided and intimatelymixed copper sulfid from the metallic quicksilver and the metallic gold and silver, it is necessary to keep the mixture as liquid as possible, and this I do by keeping it hot by keeping it under hot Water. In this condition Istirit slowly, and the coppersulfid, having a much smaller specific gravity than the metallic quicksilver, silver, or gold, rises continuously to the surface of the metallic elements-viz., amalgam containing silver and gold, oreither. If cold water is used,the amalgam remains stiffer and the separation is slower. If no water is added, all the stirring that can be done will cause no perfect separation of the coppersulfid from the amalgam.
I desire it to be understood that wherever the term amalgam occurs in this specification and in the claims I refer to mercury amalgams.
Having thus described my new and useful method, I desire to secure by Letters Patent- 1. The method of treating amalgams containing copper and precious metals, which consists in adding sulfur to the amalgam at a temperature not exceeding the boiling-point of water, and separating from the amalgam the copper sulfid formed.
2. The method of treating amalgams containing copper and precious metals, which consists in adding sulfur to the amalgam, then adding Water, and finally separating the copper sulfid formed.
3. The method of treating amalgams containing copper and precious metals, which consists in adding sulfur to the amalgam, then adding water under the influence of heat, and finally separating the copper sulfid formed.
In testimony whereof I have signed my name to this specification in the presence of two subscribing witnesses.
JOAOHIM H. BURFEIND.
Witnesses:
JOHN W. OOTTER, W. 0. WHEN.
US1474500A 1900-04-28 1900-04-28 Method of treatment of amalgam containing copper or precious metals. Expired - Lifetime US671988A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US1474500A US671988A (en) 1900-04-28 1900-04-28 Method of treatment of amalgam containing copper or precious metals.

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US1474500A US671988A (en) 1900-04-28 1900-04-28 Method of treatment of amalgam containing copper or precious metals.

Publications (1)

Publication Number Publication Date
US671988A true US671988A (en) 1901-04-16

Family

ID=2740541

Family Applications (1)

Application Number Title Priority Date Filing Date
US1474500A Expired - Lifetime US671988A (en) 1900-04-28 1900-04-28 Method of treatment of amalgam containing copper or precious metals.

Country Status (1)

Country Link
US (1) US671988A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4925488A (en) * 1987-07-30 1990-05-15 Milton Blander Removal of copper from ferrous scrap

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4925488A (en) * 1987-07-30 1990-05-15 Milton Blander Removal of copper from ferrous scrap

Similar Documents

Publication Publication Date Title
US671988A (en) Method of treatment of amalgam containing copper or precious metals.
US4425160A (en) Refining process for removing antimony from lead bullion
US2195433A (en) Process for producing boron-copper alloys
US3607232A (en) Refining lead
EP0236456A1 (en) Refining precious metals
US2109144A (en) Process of treating metal
US4404026A (en) Process for separation of dross elements combining sodium addition to molten bullion followed by controlled solidification of casting
US1740752A (en) Treating lead alloys
US1786908A (en) Process for the separation and purification of metals and metallic alloys
US1957819A (en) Refining metal
BE1006723A3 (en) Sludge treatment of high nickel content.
US4427629A (en) Process for metal-enrichment of lead bullion
US732641A (en) Metal-leaching process.
US2043575A (en) Process for detinning lead alloys
US1957837A (en) Method of purifying lead, tin, and lead-tin alloys
US1989734A (en) Production of bismuth
US2194441A (en) Refining lead
US1231349A (en) Process of treating slags.
US2843476A (en) Process for refining lead
US1774359A (en) Process for refining antimonial lead
US575467A (en) Francis ellershatjsen
US447344A (en) Process of preparing ores for amalgamation
US2364815A (en) Method of treating tin hardhead to recover tin
US440143A (en) Edouard dode
CA1201596A (en) Method for desilverizing and removal of other metal values from lead bullion