US1910861A - Aluminum alloy - Google Patents

Aluminum alloy Download PDF

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US1910861A
US1910861A US656953A US65695333A US1910861A US 1910861 A US1910861 A US 1910861A US 656953 A US656953 A US 656953A US 65695333 A US65695333 A US 65695333A US 1910861 A US1910861 A US 1910861A
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alloys
per cent
weight
alloy
aluminum
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US656953A
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Keller Fred
Charles M Craighead
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    • CCHEMISTRY; METALLURGY
    • C22METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
    • C22CALLOYS
    • C22C21/00Alloys based on aluminium
    • C22C21/06Alloys based on aluminium with magnesium as the next major constituent
    • C22C21/08Alloys based on aluminium with magnesium as the next major constituent with silicon

Definitions

  • This invention relates to aluminum base alloys which are po'ssessedof high tensile properties, excellent resistance to corrosion, and the further property of retaining a substantial part of their original surface appearance after continued exposure to the atmosphere.
  • aluminum base alloys where high strength, good corrosion-resistance and good appearance are primary requisites.
  • window frames are often built up from extruded or rolled aluminum base alloy shapes. Since the distinctive color of aluminum lends itself readily to modern design, aluminum base alloys which will retain their natural color and appearance under constant exposure to ordinary or industrial atmospheres are in great demand. The alloys must also, if adaptable to such uses, be of high strength and must likewise be resistant tocorrosion in the sense that upon long exposure the tensile properties of the alloys do not materially depreciate.
  • the known high strength aluminum base The known high strength aluminum base.
  • alloys have, more or less, fulfilled the abovenoted requirements, but there has been a.
  • the high strength aluminum base alloys which are best adapted to the uses and purposes above mentioned are the alloys described in the United States Patent No. 1,472,? 39 to Robert S. Archer and Zay Jeffries.
  • the alloys described in this patent are characterized by the simultaneous presence temperatures above about 500 centigrade but below the temperature at which incipient fusion takes place in the alloy, a portion of the Mg Si forms a solid solution with the aluminium, increasing the strength of that metal. If the alloy is then cooled more or less rapidly and thereafter artificially aged by heating to temperatures of about 100 to 200 centigrade, the strength of the alloy is further increased.
  • the alloy should contain from 0.1 to 1.0 per cent by weight in total of one or more of the class of metals herein defined to be chromium, manganese, molybdenum, tungsten, vanadium, zirconium, titanium, and uranium.
  • This class of elements has two commonproperties, one being the hardening of the aluminum with which they are mixed, and the other being the fact that in our novel alloys they achieve their stated purpose without injuring the other desirable properties of the alloy.
  • they cooperate jointly or severally, as the case may be, to produce the novel composition the properties of which are herein described.
  • Oneor more of these metals may be present in the alloy but they should not exceed in total the limits of 0.1 to 1.0 per cent by Weight.
  • the CllYOll'lllllll should not exceed 0.1 to 1.0 per cent by weight
  • the manganese should not ex- I ceed 0.1 to 1.0 per cent by weight
  • the molybdenum should not exceed 0.1 to 1.0 per cent by weight
  • the tungsten should not exceed 0.1 to 0.5 per cent by weight
  • the vanadium should not exceed 0.1 to 1.0 percentby weight
  • the zirconium should not exceed 0.1 to 1.0 per cent by weight, the titanium should not exceed 0.1 to 0.5 per cent by weight, and the uranium should not exceed 0.1 to 1.0 per cent by weight.
  • the aluminum from which the alloy is compounded should not contain more than 0.3 per cent by weight of impurities, said amount of impurities, of course, being exclusive of magnesium, silicon, and the elements of the class above named.
  • the alloys contemplated by our invention are those which contain about 0.5 to 3.0 per cent by weight of Mg Si (or magnesium and silicon in amount and ratio to form such amounts of Mg Si), which contain no substantial excess of magnesium or silicon over .the amounts necessary to form Mg Si and which contain 0.1 to 1.0 per cent in total of at least'on'e oi the elements chromium, manganese, n'u-rlybden-u1n, tungsten, vanadium, ziiconium, titanium, and uranium, the balance of the alloy being aluminum containing not more than 0.2-1 per cent by weight of impurities exclusive, of course, of silicon, magnesium, chromium, manganese,molybdenum, tungsten, vanadium, Zirconium, titanium, and uranium.
  • Alloys of this composition have tensile properties sufficiently high to meet many engineering specifications. They have, moreover, an excellent corrosionrcsistance and stability 01": surface appearance. ln this combination of properties they excel other high strength aluminum base alloys known and, in addition to these properties, alloys of this composition are readily worked into usual and even intricate forms and shapes;
  • the alloys above described may be heattreated and aged and otherwise thermally treated according to the methods known to I the art and may by means of the known methods of working be fabricated into many shapes.
  • the alloys may likewise be cast according to usual foundry practices.
  • alloys which are the subject of this invention certain are preferred, especially as material from which to form window frames and like articles These are the alloys of higher strength which still retain excellent worlnrbi-lity.
  • These alloys contain about 1.5 to 2.0 per cent by weight of MpgSi, about 0.1, to 1.0 per cent byweight of at least one ot the class-of elements chromium, manganese, molybdenum, tungsten, vanadium, zirconium, titanium, and uranium, and the balance being aluminum containing not more than about 0.3 per cent by weight of impurities exclusive of magnesium, silicon, chromium, manganese, n'iolybdenum, tungsten, vanadium, zirconium.
  • alloys containing 1.5 to 2.0 per cent by weight of Mg si, 0.1' to 1.5 per cent by weight of chromium. the balance being aluminum of the purity above named have, in extruded form and after heat treatment at about 515 centigradc followed by cooling and artificial aging at about 160 Centigrade for about 18 hours, an average tensile strength of 35,000 to 39,000 pounds per square inch. an average yield strength of 30,- 000 to 3%,000 pounds per square inch, and an elongation of about 1 to 17 per cent in 2 inches.
  • t is a further beneficial property of the novel alloys herein described that they are, under the commercial methods of working and lmat-treatment, singularly free from the phenomena of g"ain growth or la-nge or uneven sized grai-nsand that, partly because oi" this fact, they present in the worked condition a surface which is even and smooth.

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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)

Description

a UNITED STATES Patented May 23, 1933 PATENT OFFICE l.
FRED KELLER AND CHARLES M. CRAIGHEAI), OF NEW KENSINGTON, PENNSYLVANIA ALUMINUM ALLOY No Drawing. Original application filed November 30, 1932, Serial No. 645,127. hivided and this application .filed February 15, 1933. Serial No. 656,953.
. This invention relates to aluminum base alloys which are po'ssessedof high tensile properties, excellent resistance to corrosion, and the further property of retaining a substantial part of their original surface appearance after continued exposure to the atmosphere.
There are uses ofaluminum base alloys where high strength, good corrosion-resistance and good appearance are primary requisites. Exemplary of such uses are window frames. Such frames are often built up from extruded or rolled aluminum base alloy shapes. Since the distinctive color of aluminum lends itself readily to modern design, aluminum base alloys which will retain their natural color and appearance under constant exposure to ordinary or industrial atmospheres are in great demand. The alloys must also, if adaptable to such uses, be of high strength and must likewise be resistant tocorrosion in the sense that upon long exposure the tensile properties of the alloys do not materially depreciate.
The known high strength aluminum base.
alloys have, more or less, fulfilled the abovenoted requirements, but there has been a.
need for an alloy which would combine, to a larger extent, high strength, corrosionresistance and a stable surface appearance. It is the general object of this invention to provide alloys of this nature.
Among the high strength aluminum base alloys which are best adapted to the uses and purposes above mentioned are the alloys described in the United States Patent No. 1,472,? 39 to Robert S. Archer and Zay Jeffries. The alloys described in this patent are characterized by the simultaneous presence temperatures above about 500 centigrade but below the temperature at which incipient fusion takes place in the alloy, a portion of the Mg Si forms a solid solution with the aluminium, increasing the strength of that metal. If the alloy is then cooled more or less rapidly and thereafter artificially aged by heating to temperatures of about 100 to 200 centigrade, the strength of the alloy is further increased.
In experimenting with this general type of aluminum base alloy we have discovered certain alloys which are generally superior thereto. lVe have discovered that if an alloy of high tensile properties, excellent cor- 1.osion-resistance and stable surface appearance is desired, the best combinationof these properties can be obtained when neither an excess of magnesium nor an excess of silicon is present in the alloy, but that the magnesium and silicon should be present in such amounts as will combine substantially com pletely to form the intermetallic compound Mg Si. Furthermore, as We have discovered, the alloy should contain from 0.1 to 1.0 per cent by weight in total of one or more of the class of metals herein defined to be chromium, manganese, molybdenum, tungsten, vanadium, zirconium, titanium, and uranium. This class of elements has two commonproperties, one being the hardening of the aluminum with which they are mixed, and the other being the fact that in our novel alloys they achieve their stated purpose without injuring the other desirable properties of the alloy. Likewise they cooperate jointly or severally, as the case may be, to produce the novel composition the properties of which are herein described. Oneor more of these metals may be present in the alloy but they should not exceed in total the limits of 0.1 to 1.0 per cent by Weight. When the elements are used singly in the alloy the CllYOll'lllllll should not exceed 0.1 to 1.0 per cent by weight, the manganese should not ex- I ceed 0.1 to 1.0 per cent by weight, the molybdenum should not exceed 0.1 to 1.0 per cent by weight, the tungsten should not exceed 0.1 to 0.5 per cent by weight, the vanadium should not exceed 0.1 to 1.0 percentby weight,
the zirconium should not exceed 0.1 to 1.0 per cent by weight, the titanium should not exceed 0.1 to 0.5 per cent by weight, and the uranium should not exceed 0.1 to 1.0 per cent by weight. The aluminum from which the alloy is compounded should not contain more than 0.3 per cent by weight of impurities, said amount of impurities, of course, being exclusive of magnesium, silicon, and the elements of the class above named.
The alloys contemplated by our invention are those which contain about 0.5 to 3.0 per cent by weight of Mg Si (or magnesium and silicon in amount and ratio to form such amounts of Mg Si), which contain no substantial excess of magnesium or silicon over .the amounts necessary to form Mg Si and which contain 0.1 to 1.0 per cent in total of at least'on'e oi the elements chromium, manganese, n'u-rlybden-u1n, tungsten, vanadium, ziiconium, titanium, and uranium, the balance of the alloy being aluminum containing not more than 0.2-1 per cent by weight of impurities exclusive, of course, of silicon, magnesium, chromium, manganese,molybdenum, tungsten, vanadium, Zirconium, titanium, and uranium. Alloys of this composition have tensile properties sufficiently high to meet many engineering specifications. They have, moreover, an excellent corrosionrcsistance and stability 01": surface appearance. ln this combination of properties they excel other high strength aluminum base alloys known and, in addition to these properties, alloys of this composition are readily worked into usual and even intricate forms and shapes;
The alloys above described may be heattreated and aged and otherwise thermally treated according to the methods known to I the art and may by means of the known methods of working be fabricated into many shapes. The alloys may likewise be cast according to usual foundry practices.
Of the alloys which are the subject of this invention certain are preferred, especially as material from which to form window frames and like articles These are the alloys of higher strength which still retain excellent worlnrbi-lity. These alloys contain about 1.5 to 2.0 per cent by weight of MpgSi, about 0.1, to 1.0 per cent byweight of at least one ot the class-of elements chromium, manganese, molybdenum, tungsten, vanadium, zirconium, titanium, and uranium, and the balance being aluminum containing not more than about 0.3 per cent by weight of impurities exclusive of magnesium, silicon, chromium, manganese, n'iolybdenum, tungsten, vanadium, zirconium. titanium, and uranium. For exa niple, alloys containing 1.5 to 2.0 per cent by weight of Mg si, 0.1' to 1.5 per cent by weight of chromium. the balance being aluminum of the purity above named, have, in extruded form and after heat treatment at about 515 centigradc followed by cooling and artificial aging at about 160 Centigrade for about 18 hours, an average tensile strength of 35,000 to 39,000 pounds per square inch. an average yield strength of 30,- 000 to 3%,000 pounds per square inch, and an elongation of about 1 to 17 per cent in 2 inches.
t is a further beneficial property of the novel alloys herein described that they are, under the commercial methods of working and lmat-treatment, singularly free from the phenomena of g"ain growth or la-nge or uneven sized grai-nsand that, partly because oi" this fact, they present in the worked condition a surface which is even and smooth.
This application is a division of our copending application Serial No. 645,127, filed Nov. 30, 1932.
o claim as our invention An alloy containing about 0.5 to 3.0 per cent by weight of the intermetallic compound MggSi and about 0.1. to 1.0 per cent by weight of vanadium, the balance being aluminum which does n'ot'contain more than 0.3 per cent by w i t of impurities exclusive of magnesin1i'i.-s1.ic n, and vanadium.
In testimony whereof we hereto aiiix our signatures.
I YRED KELLER.
"CHARLE-ij M. CRAIGH Elli).
US656953A 1932-11-30 1933-02-15 Aluminum alloy Expired - Lifetime US1910861A (en)

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US656953A US1910861A (en) 1932-11-30 1933-02-15 Aluminum alloy

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3107159A (en) * 1956-02-23 1963-10-15 Kaiser Aluminium Chem Corp Colored anodized aluminum article and alloys therefor
US3236632A (en) * 1964-12-01 1966-02-22 Dow Chemical Co High strength aluminum alloy for pellet extrusion and product
US4093474A (en) * 1976-07-09 1978-06-06 Swiss Aluminium Ltd. Method for preparing aluminum alloys possessing improved resistance weldability

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3107159A (en) * 1956-02-23 1963-10-15 Kaiser Aluminium Chem Corp Colored anodized aluminum article and alloys therefor
US3236632A (en) * 1964-12-01 1966-02-22 Dow Chemical Co High strength aluminum alloy for pellet extrusion and product
US4093474A (en) * 1976-07-09 1978-06-06 Swiss Aluminium Ltd. Method for preparing aluminum alloys possessing improved resistance weldability

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