US804006A - Process of making zinc alloys. - Google Patents

Process of making zinc alloys. Download PDF

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Publication number
US804006A
US804006A US17735603A US1903177356A US804006A US 804006 A US804006 A US 804006A US 17735603 A US17735603 A US 17735603A US 1903177356 A US1903177356 A US 1903177356A US 804006 A US804006 A US 804006A
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United States
Prior art keywords
zinc
aluminium
coating
zinc alloys
tin
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US17735603A
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Paul Guehrs
Albrecht Guehrs
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    • CCHEMISTRY; METALLURGY
    • C22METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
    • C22CALLOYS
    • C22C18/00Alloys based on zinc
    • C22C18/04Alloys based on zinc with aluminium as the next major constituent

Definitions

  • the object of this invention is a process for manufacturing Zinc for zinc coating purposes which will neither form the so-called hard zinc nor oXid and by means of which exceedingly resistant durable coatings of zinc may be obtained. It has been ascertained that by incorporating aluminium with zinc the formation of hard zinc and of oxid may be prevented. In order to distribute and thoroughly incorporate the aluminium an alloy of zinc and aluminium is preferably made use of. With a view of arriving at a thorough and efiicient incorporation of aluminium or of the alloy of Zinc and aluminium it is necessary to melt the aluminium or the alloy of zinc and aluminium together and simultaneously with the zinc.
  • the melting has to be carried on in such a manner, for instance, that the aluminium is placed upon the bottom of the container and is covered with the zinc.
  • the aluminium or respectively the alloy of aluminium and zinc may, however, be melted first, the Zinc being then added to the molten mass.
  • Such an amount of aluminium has to be incorporated with the zinc for preventing the formation of hard Zinc and of oXid that there is no further formation of gas in the entire mass of the molten Zinc.
  • the results aimed at by the present invention can only be attained by first melting the aluminium and then adding the zinc. If the zinc is melted first and the aluminium is added thereafter, the results of the present process cannot be attained. About 0.5 to two per cent. of aluminium are incorporated, for instance. A small addition of a small percentage of tin-for instance, some few tenths of one per cent.-may also be added to the zinc in order to overcome its difficultly-melting properties, so that the zinc will then contain both aluminium and tin. Tin accomplishes very good results; but other metals which produce fluidity of the molten material may also be used.
  • the vessels used for melting and keeping the molten Zinc are less attacked by the molten mass, provided it contains a small quantity of aluminium or of aluminium and tin, as com pared with crude Zinc which has not been submitted to the ordinary process.

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  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Materials Engineering (AREA)
  • Mechanical Engineering (AREA)
  • Metallurgy (AREA)
  • Organic Chemistry (AREA)
  • Powder Metallurgy (AREA)
  • Manufacture Of Metal Powder And Suspensions Thereof (AREA)

Description

UNITED- STATES PATENT oFIuoE.
PRooEss OF MAKING zmo ALLOYS.
Specification of Letters Patent.
Patented Nov. 7, 1905.
Application filed October 16, 1903. Serial No. 177,356-
TO all whom it nury 0072067:
'Be it known that we, PAUL GUI-IRS, 01 43 Graefestrasse, and ALBRECHT GUHRs, of 7 5 Plan-Ufer, Berlin, German Empire, manufacturers, subjects of the King of Prussia,German Emperor, have invented a certain new and useful process for melting Zinc and for changing the physical conditions of the same and preventing the formation of hard zinc and also for avoiding oxidation, of which the following is a specification. I
The object of this invention is a process for manufacturing Zinc for zinc coating purposes which will neither form the so-called hard zinc nor oXid and by means of which exceedingly resistant durable coatings of zinc may be obtained. It has been ascertained that by incorporating aluminium with zinc the formation of hard zinc and of oxid may be prevented. In order to distribute and thoroughly incorporate the aluminium an alloy of zinc and aluminium is preferably made use of. With a view of arriving at a thorough and efiicient incorporation of aluminium or of the alloy of Zinc and aluminium it is necessary to melt the aluminium or the alloy of zinc and aluminium together and simultaneously with the zinc. In order to effect the simultaneous melting of aluminium and Zinc, the melting has to be carried on in such a manner, for instance, that the aluminium is placed upon the bottom of the container and is covered with the zinc. The aluminium or respectively the alloy of aluminium and zinc may, however, be melted first, the Zinc being then added to the molten mass. Such an amount of aluminium has to be incorporated with the zinc for preventing the formation of hard Zinc and of oXid that there is no further formation of gas in the entire mass of the molten Zinc.
I/Vhile heretofore in the melting of Zinc, even of the purest kind, part of the Zinc assumed a glass-like brittle condition, which was usually designated as hard zinc, thus constituting a loss for all technical purposes, this change does not take place if suitable quantities ofaluminium are incorporated with the zinc in accordance with the present invention.
The results aimed at by the present invention can only be attained by first melting the aluminium and then adding the zinc. If the zinc is melted first and the aluminium is added thereafter, the results of the present process cannot be attained. About 0.5 to two per cent. of aluminium are incorporated, for instance. A small addition of a small percentage of tin-for instance, some few tenths of one per cent.-may also be added to the zinc in order to overcome its difficultly-melting properties, so that the zinc will then contain both aluminium and tin. Tin accomplishes very good results; but other metals which produce fluidity of the molten material may also be used. While aluminium renders the Zinc more difiicultly fusible, a percentage of aluminium and tin in the zinc will act to prevent the Zinc from becoming difiicultly fusible; but the mass remains thin and readily fluid. In consequence of the difiicultly-fusing properties of zinc containing aluminium zinc does not become fluid enough when used for further operations for instance, for easting' pu rposes-and Zinc coating produced with such zinc is too thick and presents uneven places. By the use of Zinc which contains aluminium and tin good and durable Zinc coatings may be obtained with most advantageous utilization of the zinc-bath. It has been found that zinc containing aluminium or aluminium and tin yields coatings in the Zinc-coating operation which adhere better to the underlying surface. In the zinc coating of metal sheets the coating of zinc adheres to such an extent that when the sheet is bent the coating will not scale ofi. The metal sheets coated with Zinc treated in this manner may be subjected to the action of rollers, hammers, stencils, and to any other treatment without the coating of zinc scaling ofi". Furthermore, the durability of soldering work in zinc plates effected with soft solder and of Zinc coatings which consists of zinc treated in accordance with the present invention is considerably increased. It has also been found that for the coating of iron sheets with zinc a smaller quantity of metal is required than was necessary if the zinc does not contain a percentage of aluminium and tin.
The vessels used for melting and keeping the molten Zinc are less attacked by the molten mass, provided it contains a small quantity of aluminium or of aluminium and tin, as com pared with crude Zinc which has not been submitted to the ordinary process.
What We claim, and desire to secure by Let- In Witness whereof we have hereunto signed 1 hers Patent of the United States, isour names in the presence of two subscribing The process of manufacturing a zinc alloy Witnesses.
for the purpose of zinc coating, which con- PAUL GUHRS 5 sists in incorporating with Zinc about 0.5 to N two per cent. of aluminium and less than one ALBRELHT (TUHRS per cent. of a metal producing great fluidity, Vitnesses:
in such a manner that the zinc does not melt HENRY HAsPER,
A before the aluminium. WoLDEMAR HAUPT.
US17735603A 1903-10-16 1903-10-16 Process of making zinc alloys. Expired - Lifetime US804006A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3167405A (en) * 1957-05-08 1965-01-26 Kaiser Aluminium Chem Corp Laminated aluminum article

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3167405A (en) * 1957-05-08 1965-01-26 Kaiser Aluminium Chem Corp Laminated aluminum article

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