US1740880A - Magnetic alloy - Google Patents

Magnetic alloy Download PDF

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Publication number
US1740880A
US1740880A US230688A US23068827A US1740880A US 1740880 A US1740880 A US 1740880A US 230688 A US230688 A US 230688A US 23068827 A US23068827 A US 23068827A US 1740880 A US1740880 A US 1740880A
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iron
nickel
chromium
carbon
manganese
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US230688A
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Smith Willoughby Statham
Garnett Henry Joseph
Holden John Ancel
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    • CCHEMISTRY; METALLURGY
    • C22METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
    • C22CALLOYS
    • C22C38/00Ferrous alloys, e.g. steel alloys
    • C22C38/18Ferrous alloys, e.g. steel alloys containing chromium
    • C22C38/40Ferrous alloys, e.g. steel alloys containing chromium with nickel

Definitions

  • This invention relates to quaternary alloys and their application to telegraphic and telephonic conductors.
  • the alloys in question comprise nickel and iron, a third element which is either silicon or aluminium, and a fourth element, preferably either chromium, tungsten, molybdenum or vanadium.
  • the objects of the invent-ion are alloys of high electrical resistance and high magnetic permeabilities in fields of H from .001 gauss to 2 gauss.
  • Alloys are known which have high electrical resistance and initial permeability of the order of 1000 and in the known alloys nickel is the chief constituent. In the alloys described herein, iron is the major constituent and these possess initial permeabilities of a higher order, so that not only are they superior in magnetic properties to the known alloys, but
  • an alloy comprises nickel 3242%, the said third and fourth elements, each of which may vary between 1 1% of the whole, and the remainder iron, which is, however, preferably within the limits 5565%.
  • Such alloys possess very high electrical resistance, and magnetic permeabilities which are practically constant within fields between .001 and .100 gauss and do not vary more than 10%.
  • Carbon should be substantially excluded, but to promote workability, a small content amounting to not more than a few tenths of 1% of manganese or other metal having deoxidizing properties may be added. Substances of this class will be hereinafter included in the term a deoxidizer of the man 40 ganese type. A quantity as great as 1% is not desirable, and excellent results have been secured with the addition of only 3%.
  • the raw materials used in the manufacture of the alloy were of good quality.
  • Swedish charcoal iron containing only 04% of carbon was used as a base.
  • Mond nickel and chromium prepared by the thermit process were melted with the iron; the silicon addition which took the form of 95% ferro silicon, was added together with the manganese immediately prior to casting.
  • the melting was carried out in an induction type of furnace, the subsequent operations for forging, rolling, etc., were carried out by the usual methods.
  • Example 2 An alloy containing Per cent Iron 60.0 Nickel 36.5 5 Chromium 1.9 Silicon 1.3 Manganese .3
  • A' magnetic material substantially free from carbon comprising nickel 32-42%, iron 55-65%, 1-4%'of aluminum and 1-4% of an element for increasing the electrical resistance.
  • a magnetic material substantially free from carbon comprising nickel 32-42%, iron -65%, 1-4% of aluminum, 1-4% of an ele- 55 ment for increasing the electrical resistance,
  • Quaternary alloys of iron and nickel comprising nickel 32-42%, iron 55-65%, aluminium 1-4%-, 1-4% of chromium, and not more than 1% of a deoxid'lzer such as manganese.
  • a magnetic material substantially free from carbon comprising about 32 to 42% of nickel, about 55 to of iron, about 1 to 4% of a substance selected from the group consisting of silicon and aluminum, and about 1 to 4% of a substance selected from the group consisting of chromium, tungsten, molybdenum and vanadium, such alloy containing no more than a few tenths of a per cent of manganese.
  • a magnetic material substantially free from carbon comprising about 32 .to 42% of nickel, about 55 to 65% of iron, about 1 to 4% of a substance selected from the group consisting of silicon and aluminum, and about 1 to 4% of a substance selected from the group consisting of chromium, tungsten, molybdenum and .vanadium,-and containing a few tenths of a per cent only of a deoxidizer of the manganese type.
  • a magnetic material substantially free from carbon comprising about 32 to 42% of nickel, about 55 to 65% of iron, about 1 to 4% of a substance selected from the group consisting of silicon and aluminum, and about 1 to 4% of a substance selected from the group consisting of chromium, tungsten, molybdenum and vanadium, the said alloy being substantially free of carbon, such alloy containing no more than a few tenths of a per cent of manganese.
  • a deoxidizer such as manganese
  • a magnetic material substantially free from carbon comprising iron 58%, nickel 60 36%, chromiunf f' -3.%, aluminium 3%.
  • a magnetic'Jmaterial ⁇ substantially free from carbon comprising nickel 32-42%, 1-4% of aluminum, chromium 1-4% and iron the remainder.

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  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Materials Engineering (AREA)
  • Mechanical Engineering (AREA)
  • Metallurgy (AREA)
  • Organic Chemistry (AREA)
  • Soft Magnetic Materials (AREA)

Description

Patented Dec. 24, 1929 UNITED STATES PATENT OFFICE WILLOUGHBY STATHAM SMITH, OF NEWTON POPPLEFORD, HENRY JOSEPH GAR NETT, OF SEVENOAKS, AND JOHN ANGEL HOLDEN, F GIDEA PARK, ENGLAND MAGNETIC ALLOY No Drawing. Application filed November 2, 1927, Serial No. 230,688, and in Great Britain November 6, 1926.
This invention relates to quaternary alloys and their application to telegraphic and telephonic conductors.
The alloys in question comprise nickel and iron, a third element which is either silicon or aluminium, and a fourth element, preferably either chromium, tungsten, molybdenum or vanadium.
The objects of the invent-ion are alloys of high electrical resistance and high magnetic permeabilities in fields of H from .001 gauss to 2 gauss.
Alloys are known which have high electrical resistance and initial permeability of the order of 1000 and in the known alloys nickel is the chief constituent. In the alloys described herein, iron is the major constituent and these possess initial permeabilities of a higher order, so that not only are they superior in magnetic properties to the known alloys, but
they are also less costly to manufacture.
According, to this invention an alloy comprises nickel 3242%, the said third and fourth elements, each of which may vary between 1 1% of the whole, and the remainder iron, which is, however, preferably within the limits 5565%.
Such alloys possess very high electrical resistance, and magnetic permeabilities which are practically constant within fields between .001 and .100 gauss and do not vary more than 10%.
' Carbon should be substantially excluded, but to promote workability, a small content amounting to not more than a few tenths of 1% of manganese or other metal having deoxidizing properties may be added. Substances of this class will be hereinafter included in the term a deoxidizer of the man 40 ganese type. A quantity as great as 1% is not desirable, and excellent results have been secured with the addition of only 3%.
As a result of many experiments we have found alloys which, when rolled into strip,
or drawn into wire, etc., and suitably heat treated have properties which make them suitable for loading submarine telegraph conductors for duplex working.
Example 1 Per cent Iron 60.0 Nickel 36.5 Chromium 2.0 Silicon 1.3 Manganese .2
after forging, drawing the wire and heat treating rapidly to 900 C. in nitrogen, maintaining at that temperature for two minutes, and cooling in air, had the following magnetic properties H=.001 =1580 H=.05 =1650 H=.1O =1675 Its electrical resistance was 95 microhms per cm.
In order to secure the foregoingresults the raw materials used in the manufacture of the alloy were of good quality. Swedish charcoal iron containing only 04% of carbon was used as a base. Mond nickel and chromium prepared by the thermit process were melted with the iron; the silicon addition which took the form of 95% ferro silicon, was added together with the manganese immediately prior to casting. The melting was carried out in an induction type of furnace, the subsequent operations for forging, rolling, etc., were carried out by the usual methods.
A signalling conductor loaded with wire of the foregoing composition, after heat treatment, when tested with an alternating current of between 1 and 100 milliamperes, had an inductance that only varied 8%.
Cir
Example 2.An alloy containing Per cent Iron 60.0 Nickel 36.5 5 Chromium 1.9 Silicon 1.3 Manganese .3
after forging, drawing to wire and annealing at 900 C. for two minutes, has an electrical resistance of 95 microhms per 0111 and the following magnetic properties I-I- .001 1500 H= .01 -1600 1 H- .10 .=1770 H==1.0 =4780 When aluminium is the third element, themagnetic permeability shows greater variation within the limits of a field between .001 and .100 gauss. For example, an alloy containing:
' Per cent Iron 58 Nickel 36 Chromium 3 Aluminium 3 after reducing to wire, and heat'treating as 1-4% of aluminum, 1-4% of an element for increasing the electrical resistance, and iron the remainder.
2. A' magnetic material substantially free from carbon comprising nickel 32-42%, iron 55-65%, 1-4%'of aluminum and 1-4% of an element for increasing the electrical resistance.
' 3. An alloy as claimed in claim 1, comprising not more than 1% of a' deoxidizer such as manganese.
4. A magnetic material substantially free from carbon comprising nickel 32-42%, iron -65%, 1-4% of aluminum, 1-4% of an ele- 55 ment for increasing the electrical resistance,
from carbon comprising nickel 32-42%, iron 55-65%, 1-4% of aluminum, and 1-4% of chromium.
8. Quaternary alloys of iron and nickel, comprising nickel 32-42%, iron 55-65%, aluminium 1-4%-, 1-4% of chromium, and not more than 1% of a deoxid'lzer such as manganese.
9. A magnetic material substantially free from carbon comprising about 32 to 42% of nickel, about 55 to of iron, about 1 to 4% of a substance selected from the group consisting of silicon and aluminum, and about 1 to 4% of a substance selected from the group consisting of chromium, tungsten, molybdenum and vanadium, such alloy containing no more than a few tenths of a per cent of manganese.
10. A magnetic material substantially free from carbon comprising about 32 .to 42% of nickel, about 55 to 65% of iron, about 1 to 4% of a substance selected from the group consisting of silicon and aluminum, and about 1 to 4% of a substance selected from the group consisting of chromium, tungsten, molybdenum and .vanadium,-and containing a few tenths of a per cent only of a deoxidizer of the manganese type.
11. A magnetic material substantially free from carbon comprising about 32 to 42% of nickel, about 55 to 65% of iron, about 1 to 4% of a substance selected from the group consisting of silicon and aluminum, and about 1 to 4% of a substance selected from the group consisting of chromium, tungsten, molybdenum and vanadium, the said alloy being substantially free of carbon, such alloy containing no more than a few tenths of a per cent of manganese. V
In testimony that we claim the foregoing as our invention, we have signed our names this twenty fourth day of October, 1927.
WILLOUGHBY STATHAM SMITH.
HENRY JOSEPH GARNETT. JOHN ANGEL HOLDEN.
and not more than 1% of a deoxidizer such as manganese.
5. A magnetic material substantially free from carbon comprising iron 58%, nickel 60 36%, chromiunf f' -3.%, aluminium 3%.
- 6. A magnetic'Jmaterial\substantially free from carbon comprising nickel 32-42%, 1-4% of aluminum, chromium 1-4% and iron the remainder.
' 65 7 A magnetic material substantially free
US230688A 1926-11-06 1927-11-02 Magnetic alloy Expired - Lifetime US1740880A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2720604A (en) * 1951-12-28 1955-10-11 Gen Motors Corp Low-temperature compensating alloy for magnetic instruments

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2720604A (en) * 1951-12-28 1955-10-11 Gen Motors Corp Low-temperature compensating alloy for magnetic instruments

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