US2283675A - Method for preventing intergranular oxidation in ternary beryllium alloys - Google Patents

Method for preventing intergranular oxidation in ternary beryllium alloys Download PDF

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US2283675A
US2283675A US340564A US34056440A US2283675A US 2283675 A US2283675 A US 2283675A US 340564 A US340564 A US 340564A US 34056440 A US34056440 A US 34056440A US 2283675 A US2283675 A US 2283675A
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alloys
wire
strip
alloy
intergranular oxidation
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Richards H Harrington
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General Electric Co
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General Electric Co
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    • CCHEMISTRY; METALLURGY
    • C22METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
    • C22FCHANGING THE PHYSICAL STRUCTURE OF NON-FERROUS METALS AND NON-FERROUS ALLOYS
    • C22F1/00Changing the physical structure of non-ferrous metals or alloys by heat treatment or by hot or cold working
    • C22F1/08Changing the physical structure of non-ferrous metals or alloys by heat treatment or by hot or cold working of copper or alloys based thereon

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  • Patented May 19,- 1942 METHOD FOR PREVENTING INTERGBANU- LAR OXIDATION IN TERNARY BERYLLI'UM ALLOYS Richards H. Harrington, Schenectady, N. Y., as
  • the present invention relates to ternary alloys containing copper, beryllium and metal from the group cobalt and chromium but more particularly to a method for producing such alloys in the form of wire or strip. Alloys of this compoto the former practice, is carried out in a prosition are disclosed in Dahl Patent 1,847,929 and l in Horstkotte Patent 1,957,214 and heretofore have been employed to a considerable extent as forged material and castings and in the form of welding electrodes and current conducting bearings. Infabricating the alloys a heat treatment is employed to eii'ect'precipitation hardening. This treatment consists in heating the alloys to a temperature of about 900 C. to effect a solid solution condition in the alloy, quenching and thereafter reheating or drawing the alloy at 450 C. to 550 C. to effect a condition of precipitation in the alloy.
  • intergranular oxidation takes place beneath the normally oxidized or scaled surface.
  • These alloys are extremely sensitive to oxidation along grain boundaries, even in standard bright annealing atmospheres. Such oxidation generally is not detrimental in castings, rod or plate stocksince they usually are not subjected to permanent bending and'when that is necessary they may be machined before bending to thereby remove the layer containing intergranular oxi dation beneath the oxidized surface.
  • the intergranular oxidation condition however is particularly undesirable 'when these alloys are in the form of strip or wire since the depth of material affected is a large percentage of the cross section area or the strip or wire. When such a condition exists in wire or strip forms of these alloys they crack severely when bent, thereby rendering the material useless for purposes such as springs and the like..
  • One of the objects of the present invention is to provide a process for preventing intergranular oxidation in strip or wire form of alloys which consist of copper, cobalt, beryllium, or copper,
  • chromium chromium, beryllium which contain percentages of ingredients such as set forth in the abovenoted Dahl andHorstkotte patents.
  • the wire and strip of these alloys are heated at an elevated temperature of about 900 C. and for a period of time sumcient to effect a solid solution condition in the alloys but the heating, contrary tective atmosphere free from oxygen, carbon dioxide and water vapor.
  • any gaseous medium for example: partly combusted city gas, cracked ammonia, hydrogen, nitrogen, argon, helium, etc., from which oxygen, carbon dioxide and water vapor have been removed, may be employed as the furnace atmosphere.
  • the alloy strip or'wire is quenched from th solution temperature.
  • the quenching medium must be one which will break up any vapor film which otherwise would form on the metal surface in the quenching operation. It may be a non-oxidizing oil but more satisfactory results are obtained by quenching in a 10% solution of sodium chloride, potassium chloride, sodium nitrate, potassium nitrate, sodium sulphate, potassium sulphate, potassium' or sodium hydroxide. However, any solution may be employed which, in contact with the hot surface of the metal,,will break up any vapor film which otherwise would form on the metal surface in the quenching operation.
  • the wire or strip alloy is quenched in salt water
  • salt water When the alloy wire in a quenching tank, sufficient intergranular oxidation results to damage the alloy irreparably in a commercial sense.
  • a salt solution or equivalent cooling medium such as indicated hereinbefore, such solutions will break up any vapor film which otherwise would formon the surface of the hot metal and thereby prevent any intergranular oxidation during quenching.
  • the wire or strip alloy may be precipitation hardened by reheating or drawing at the usual elevated temperatures but not materially higher than 500 C. and for the usual periods of time necessary to eiiect precipitation in such alloys.
  • the reheat or draw preferably should be carried out in a protective atmosphere as indicated above, since 500 C. is the lower limit for temperatures which cause 'intergranular oxidation when C02, 0: and water vapor are present in the furnace atmosphere. It the draw or reheat is carried out in air and at temperatures below 500 C. the alloy strip or wire should be pickled thereaiterto remove any scale formed during the draw or reheat.
  • the alloys may be cooled from the reheat temperature in.air or in gaseous atmospheres which ordinarily prevent scaling at 500 C.
  • any scale which may be formed during such draw is notaccompanied by intergranular oxidation since the latter occurs only at temperatures at and above 500' C.
  • the method of preventing intergranular the group cobalt and chromium which comprises heating said alloys to an elevated temperature in a gaseous atmosphere tree from oxygen, water vapor, and carbon dioxide to thereby effect a solid solution condition in the alloy, quenching said wire or strip from said temperature in a solution of sodium hydroxide which in contact with the hot metal breaks up any vapor fllm which otherwise would form on the hot surface of said wire orstrip, and thereafter reheating said wire or strip at an elevated temperature to thereby effect a condition of precipitation in said alloy wire or strip.

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  • Chemical & Material Sciences (AREA)
  • Physics & Mathematics (AREA)
  • Thermal Sciences (AREA)
  • Crystallography & Structural Chemistry (AREA)
  • Engineering & Computer Science (AREA)
  • Materials Engineering (AREA)
  • Mechanical Engineering (AREA)
  • Metallurgy (AREA)
  • Organic Chemistry (AREA)
  • Heat Treatment Of Strip Materials And Filament Materials (AREA)

Description

Patented May 19,- 1942 METHOD FOR PREVENTING INTERGBANU- LAR OXIDATION IN TERNARY BERYLLI'UM ALLOYS Richards H. Harrington, Schenectady, N. Y., as
signor to General Electric Company, a corporation of New York No Drawing. Application June 14, 1940,
Serial No. 340,564
2 Claims.
This application is a continuation in part of my copending application Serial No. 221,976,
flied July 29, 1938, now Patent'2,226,284.
The present invention relates to ternary alloys containing copper, beryllium and metal from the group cobalt and chromium but more particularly to a method for producing such alloys in the form of wire or strip. Alloys of this compoto the former practice, is carried out in a prosition are disclosed in Dahl Patent 1,847,929 and l in Horstkotte Patent 1,957,214 and heretofore have been employed to a considerable extent as forged material and castings and in the form of welding electrodes and current conducting bearings. Infabricating the alloys a heat treatment is employed to eii'ect'precipitation hardening. This treatment consists in heating the alloys to a temperature of about 900 C. to effect a solid solution condition in the alloy, quenching and thereafter reheating or drawing the alloy at 450 C. to 550 C. to effect a condition of precipitation in the alloy.
In heating these alloys at temperatures about 500 C. and above in air or any oxidizing atmosphere intergranular oxidation takes place beneath the normally oxidized or scaled surface. These alloys are extremely sensitive to oxidation along grain boundaries, even in standard bright annealing atmospheres. Such oxidation generally is not detrimental in castings, rod or plate stocksince they usually are not subjected to permanent bending and'when that is necessary they may be machined before bending to thereby remove the layer containing intergranular oxi dation beneath the oxidized surface. The intergranular oxidation condition however is particularly undesirable 'when these alloys are in the form of strip or wire since the depth of material affected is a large percentage of the cross section area or the strip or wire. When such a condition exists in wire or strip forms of these alloys they crack severely when bent, thereby rendering the material useless for purposes such as springs and the like..
One of the objects of the present invention is to provide a process for preventing intergranular oxidation in strip or wire form of alloys which consist of copper, cobalt, beryllium, or copper,
chromium, beryllium which contain percentages of ingredients such as set forth in the abovenoted Dahl andHorstkotte patents.
In carrying out the present invention the wire and strip of these alloys are heated at an elevated temperature of about 900 C. and for a period of time sumcient to effect a solid solution condition in the alloys but the heating, contrary tective atmosphere free from oxygen, carbon dioxide and water vapor.
If more than a minute trace of oxygen, carbon dioxide -or water vapor is present in the furnace atmosphere intergranular oxidation of the alloy wire or strip will take place. Any gaseous medium, for example: partly combusted city gas, cracked ammonia, hydrogen, nitrogen, argon, helium, etc., from which oxygen, carbon dioxide and water vapor have been removed, may be employed as the furnace atmosphere.
The alloy strip or'wire is quenched from th solution temperature. For best physical properties the quenching medium must be one which will break up any vapor film which otherwise would form on the metal surface in the quenching operation. It may be a non-oxidizing oil but more satisfactory results are obtained by quenching in a 10% solution of sodium chloride, potassium chloride, sodium nitrate, potassium nitrate, sodium sulphate, potassium sulphate, potassium' or sodium hydroxide. However, any solution may be employed which, in contact with the hot surface of the metal,,will break up any vapor film which otherwise would form on the metal surface in the quenching operation.
, ferior to the properties which are obtained when I .or an equivalent solution.
or strip is quenched in ordinary standing water,
the wire or strip alloy is quenched in salt water When the alloy wire in a quenching tank, sufficient intergranular oxidation results to damage the alloy irreparably in a commercial sense. However, if the alloy is quenched in a salt solution or equivalent cooling medium such as indicated hereinbefore, such solutions will break up any vapor film which otherwise would formon the surface of the hot metal and thereby prevent any intergranular oxidation during quenching.
After quenching from the solution temperature the wire or strip alloy may be precipitation hardened by reheating or drawing at the usual elevated temperatures but not materially higher than 500 C. and for the usual periods of time necessary to eiiect precipitation in such alloys. The reheat or draw preferably should be carried out in a protective atmosphere as indicated above, since 500 C. is the lower limit for temperatures which cause 'intergranular oxidation when C02, 0: and water vapor are present in the furnace atmosphere. It the draw or reheat is carried out in air and at temperatures below 500 C. the alloy strip or wire should be pickled thereaiterto remove any scale formed during the draw or reheat. The alloys may be cooled from the reheat temperature in.air or in gaseous atmospheres which ordinarily prevent scaling at 500 C. When the reheat or draw is carried out at temperatures below 500 C. any scale which may be formed during such draw is notaccompanied by intergranular oxidation since the latter occurs only at temperatures at and above 500' C.
What I claim as new and desire to secure .by Letters Patent of the United States, is:
1. The method of preventing intergranular oxidation in wire or strip form of ternary alloys consisting of copper, beryllium and metal from the group cobalt and chromium which comprises heating said wire or strip to an elevated temperature in an atmosphere free from oxygen,
water vapor and carbon dioxide to thereby effect a. solid solution condition in the alloy, and' quenching said strip or wire from said tempera 'ture in a solution of sodium hydroxide.
2. The method of preventing intergranular the group cobalt and chromium which comprises heating said alloys to an elevated temperature in a gaseous atmosphere tree from oxygen, water vapor, and carbon dioxide to thereby effect a solid solution condition in the alloy, quenching said wire or strip from said temperature in a solution of sodium hydroxide which in contact with the hot metal breaks up any vapor fllm which otherwise would form on the hot surface of said wire orstrip, and thereafter reheating said wire or strip at an elevated temperature to thereby effect a condition of precipitation in said alloy wire or strip.
RICHARDS H. HARRINGTON.
US340564A 1940-06-14 1940-06-14 Method for preventing intergranular oxidation in ternary beryllium alloys Expired - Lifetime US2283675A (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3216870A (en) * 1961-03-10 1965-11-09 Ilikon Corp Stabilized precipitation hardening alloys and method of making
US3658601A (en) * 1969-01-23 1972-04-25 Spring Research Ass The Treatment of alloys
US8594228B2 (en) 1999-04-16 2013-11-26 Parkervision, Inc. Apparatus and method of differential IQ frequency up-conversion

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3216870A (en) * 1961-03-10 1965-11-09 Ilikon Corp Stabilized precipitation hardening alloys and method of making
US3658601A (en) * 1969-01-23 1972-04-25 Spring Research Ass The Treatment of alloys
US8594228B2 (en) 1999-04-16 2013-11-26 Parkervision, Inc. Apparatus and method of differential IQ frequency up-conversion

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