US2259078A - Copper-zinc alloy - Google Patents

Copper-zinc alloy Download PDF

Info

Publication number
US2259078A
US2259078A US383154A US38315441A US2259078A US 2259078 A US2259078 A US 2259078A US 383154 A US383154 A US 383154A US 38315441 A US38315441 A US 38315441A US 2259078 A US2259078 A US 2259078A
Authority
US
United States
Prior art keywords
copper
alloys
cobalt
zinc alloy
alloy
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
US383154A
Inventor
Muller Wolf Johannes
Niessner Moritz
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.)
Dynamit Nobel AG
Original Assignee
Dynamit Nobel AG
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
Priority claimed from US215856A external-priority patent/US2256788A/en
Application filed by Dynamit Nobel AG filed Critical Dynamit Nobel AG
Priority to US383154A priority Critical patent/US2259078A/en
Application granted granted Critical
Publication of US2259078A publication Critical patent/US2259078A/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
    • C22CALLOYS
    • C22C9/00Alloys based on copper
    • C22C9/04Alloys based on copper with zinc as the next major constituent

Definitions

  • gamma-brass that is to say copper-zinc alloys with a copper content of about 31-40%, 1. e. alloys which are characterized by a low copper content, are more resistant to corrosion than the brass alloys of the alpha and alpha and beta region with for instance 68-72 percent and more of copper, i. e., a higher copper content.
  • the technical employment of gammaalloys poor in copper is however impossible, since 'these alloys are-extremely hard and brittle and are consequently not machinable.
  • Such alloys with an addition of approximately 312% of cobalt, nickel or the like individually or in mixture, that isto say for instance pure copper-zinc alloys with a minimum content of nickel of approximately 7. 8% or of cobalt of approximately 545% have extremely good technical properties, and when cobalt and nickel are used simultaneously it is possible with a much smaller cobalt content to obtain the same effects as with the use of cobalt alone. Consequently alloys that are deficient in copper, even those most deficient, can be made utilisable for industrial purposes or as constructional material for the production of articles, if the copper-zinc hereinbefore set forth.
  • the manganese content should be smaller in the case of alloys of higher copper content than in the case of alloys of lower copper content.
  • suitable amounts of one or more of the elements iron, lead, tin, selenium and tellurium within the limits hereinbefore set forth while their corrosion resistance can be enhanced by the addition of one or more of the metals aluminium, chromium and tin within the limits It is easy to ascertain empirically, the amount of each element that will produce the most favourable eflect.
  • a suitable alloy in accordance with the invention is one containing between 30 and 45% of p r, between 3 and 12% of cobalt and/or nickel, between 4 and 15% of manganese and between 0.5 and 1.5% of iron.
  • the range of the solid solution can also be increased, to some extent, beyond that of the binary alloy, and alloys with a somewhat higher copper content which however must be substantially less than 45%, which come within the beta-i-gamma range in the binary alloy, can also be converted into a state corresponding to gamma brass and rendered suitable for applications, such as cold rolling or drawing, from which they are otherwise excluded on account of their copper content.
  • a corrosion-resistant copper-zinc alloy which is workable in the cold state, comprising copper in an amount of 30 to 45%, at least one metal of the group cobalt and nickel in an amount of 3 to 12%, manganese in an amount or 4 to 15%, iron 0.5 to 1.5%, and in a small but effective amount which is capable of increasing the corrosion-resistance or the alloy, chromium up to 3%, the zinc constituting substantially all the remainder.

Description

Patented Oct. 14-, .1941
COPPER-ZINC ALLOY Wolf Johannes Miller and Moritz Niessner,
Vienna, Germany, assignors to Aktiengesellschaft Dynamit Nobel, Pressburg, Slovakia, a company of Czechoslovakia .No Drawing. Original application June 25, 1938,
Serial No. 215,856. Divided and this application March 13, 1941, Serial No. 383,154. In
Austria July 21, 1934 1 Claim.
This invention is a division of our application Ser."No. 215,856, filed June 25, 1938, for Copper zinc alloy.
It is known that gamma-brass, that is to say copper-zinc alloys with a copper content of about 31-40%, 1. e. alloys which are characterized by a low copper content, are more resistant to corrosion than the brass alloys of the alpha and alpha and beta region with for instance 68-72 percent and more of copper, i. e., a higher copper content. The technical employment of gammaalloys poor in copper is however impossible, since 'these alloys are-extremely hard and brittle and are consequently not machinable.
From such alloys, as is described in our prior Patents Nos. 2,006,598 and 2,006,599, it has been disclosed that it is possible, by the addition of a few percent of a metal soluble in gamma-brass or alloyable therewith, such as nickel or, with more advantage cobalt, preferably by a simultaneous addition of nickel and cobalt, to obtain alloys, which possess the good resistance to corrosion of gamma-alloys poor in copper, but are also capable of being worked up, that is to say can be treated with machine tools and can also be rolled ho't. Such alloys with an addition of approximately 312% of cobalt, nickel or the like individually or in mixture, that isto say for instance pure copper-zinc alloys with a minimum content of nickel of approximately 7. 8% or of cobalt of approximately 545% have extremely good technical properties, and when cobalt and nickel are used simultaneously it is possible with a much smaller cobalt content to obtain the same effects as with the use of cobalt alone. Consequently alloys that are deficient in copper, even those most deficient, can be made utilisable for industrial purposes or as constructional material for the production of articles, if the copper-zinc hereinbefore set forth.
at least a small but efiective amount of one of the metals of the following group:
Percent Iron Up to 1.8 Aluminium 4. Up to 1.5 Silver Up to 2.0 Chromium Up to 3.0 Tin Up to 2.0 Lead Up to 0.3 Selenium 1 Up to 0.6 Tellurium Up to 0.6
but in no greater amounts than are soluble in the solid solution and the zinc constituting substantially the remainder.
, It has been ascertained that such alloys are suitable for cold working, including cold rolling, pressing and drawing and at the same time have a high resistance to corrosion.
In carrying out the invention, the manganese content should be smaller in the case of alloys of higher copper content than in the case of alloys of lower copper content. The higher the manganese content the more suitable is the alloy for Thus an'enhanced workability in the cold canbe imparted to the alloys of the invention, by the addition of suitable amounts of one or more of the elements iron, lead, tin, selenium and tellurium within the limits hereinbefore set forth while their corrosion resistance can be enhanced by the addition of one or more of the metals aluminium, chromium and tin within the limits It is easy to ascertain empirically, the amount of each element that will produce the most favourable eflect.
A suitable alloy in accordance with the invention is one containing between 30 and 45% of p r, between 3 and 12% of cobalt and/or nickel, between 4 and 15% of manganese and between 0.5 and 1.5% of iron.
The addition of up to 0.3% of phosphorus to the hereindescribed alloys is advantageous since it very considerably improves the fineness of structure of the alloys.
By means of the additions according to the invention the range of the solid solution can also be increased, to some extent, beyond that of the binary alloy, and alloys with a somewhat higher copper content which however must be substantially less than 45%, which come within the beta-i-gamma range in the binary alloy, can also be converted into a state corresponding to gamma brass and rendered suitable for applications, such as cold rolling or drawing, from which they are otherwise excluded on account of their copper content.
The following is a typical example of an alloy according to the invention:
Percent Cu 36 Ni 6 Co 2 Mn 10 Fe 1.2 Zn Remainder What we claim is:
A corrosion-resistant copper-zinc alloy which is workable in the cold state, comprising copper in an amount of 30 to 45%, at least one metal of the group cobalt and nickel in an amount of 3 to 12%, manganese in an amount or 4 to 15%, iron 0.5 to 1.5%, and in a small but effective amount which is capable of increasing the corrosion-resistance or the alloy, chromium up to 3%, the zinc constituting substantially all the remainder.
WOLF JOHANNES MULLER. MORI'IZ NIESSNER.
US383154A 1938-06-25 1941-03-13 Copper-zinc alloy Expired - Lifetime US2259078A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US383154A US2259078A (en) 1938-06-25 1941-03-13 Copper-zinc alloy

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
US215856A US2256788A (en) 1934-06-21 1938-06-25 Copper-zinc alloy
US383154A US2259078A (en) 1938-06-25 1941-03-13 Copper-zinc alloy

Publications (1)

Publication Number Publication Date
US2259078A true US2259078A (en) 1941-10-14

Family

ID=26910446

Family Applications (1)

Application Number Title Priority Date Filing Date
US383154A Expired - Lifetime US2259078A (en) 1938-06-25 1941-03-13 Copper-zinc alloy

Country Status (1)

Country Link
US (1) US2259078A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2950184A (en) * 1957-06-06 1960-08-23 Glidden Co Process for preparing powdered silversolder compositions

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2950184A (en) * 1957-06-06 1960-08-23 Glidden Co Process for preparing powdered silversolder compositions

Similar Documents

Publication Publication Date Title
US2234552A (en) Hardened nonferrous alloy
US2802733A (en) Process for manufacturing brass and bronze alloys containing lead
US2128954A (en) Hot workable bronze
US2259078A (en) Copper-zinc alloy
US2687955A (en) Cold-workable stainless steel and articles
US2236975A (en) Copper-zinc alloys
US2206109A (en) Copper-zinc alloys
US2144993A (en) Copper-zinc alloys
US2256788A (en) Copper-zinc alloy
US2031316A (en) Copper base alloy
US2156348A (en) Copper-zinc alloys
CN114427051A (en) Lead-free Cu-Zn alloy
US2101625A (en) High strength corrosion resistant copper alloy
US38301A (en) Improved alloys of aluminum
US2123840A (en) Alloys
US2046056A (en) Electrical current conductor
US1956251A (en) Copper alloys
US2402424A (en) Hard alloys
US2062426A (en) Copper-zinc-lead-phosphorous alloy and articles
US2141201A (en) Alloy
US2114781A (en) Welding and brazing alloy
US2231940A (en) Alloy
US2858243A (en) Process for production of improved free machining steels
US2309102A (en) Copper base alloy
US1421686A (en) Zinc alloy