US2864694A - Alloys assistant to salt baths - Google Patents

Alloys assistant to salt baths Download PDF

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Publication number
US2864694A
US2864694A US571142A US57114256A US2864694A US 2864694 A US2864694 A US 2864694A US 571142 A US571142 A US 571142A US 57114256 A US57114256 A US 57114256A US 2864694 A US2864694 A US 2864694A
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selenium
columbium
chromium
nickel
nitrogen
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US571142A
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Peter R Marsh
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Driver Harris Co
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Driver Harris Co
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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
    • C22C38/48Ferrous alloys, e.g. steel alloys containing chromium with nickel with niobium or tantalum

Definitions

  • This invention relates to alloys, and more particularly to an alloy that is particularly useful in the manufacture of salt pots.
  • Salt pots containers for neutral salt baths used in certain metal-treating processes, have been made of a nickel-chromium-iron alloy consisting of substantially 35% nickel, chromium, and balance essentially iron.
  • the life of pots made of such alloys is short, and the pots frequently develop porosity in less than 24 hours.
  • United States Letters Patent No. 2,451,547, granted October 19, 1948, Howard M. German discloses an alloy in which substantially 2% of columbium is added to the 35-l5 nickel-chromium alloy. Such an alloy has been found to be a useful material for the manufacture of salt pots and its use increases their life toabout 10.0 hours.
  • alloys of the 35-15 type that is, 35 parts nickel, 15 parts chromium and balance iron. These proportions may, of course, vary within certain limits.
  • the nickel content may vary from 32% to 38%, the chromium from 14% to with the balance essentially iron.
  • the various addition elements, carbon, deoxidizers, nitrogen and selenium are added at the expense of the iron content.
  • the alloy may contain up to 1.5% carbon, from 1% to 2% manganese, from 1% to 2%, preferably more than 1.5 silicon, from 1% to 3% columbium and from 0.1% to 1.5% copper.
  • Nitrogen and selenium are added to the melt in amounts that will leave measurable quantities of these elements in the final alloys.
  • the nitrogen content is preferably between 0.1% and 0.15% but it may vary from 0.05% to 0.2%.
  • the selenium is present in the final alloy in small proportions, less than 0.1%, generally about 0.05 Good results have been obtained from alloys containing as little as 0.01% selenium.
  • the alloys of the present invention may be prepared in the usual way for producing chromium-nickel-iron alloys.
  • the addition elements are added, preferably during the latter part of the melting period.
  • Columbium may be added'as the pure metal or as the less expensive ferrocolumbium.
  • Nitrogen and selenium are preferably added in the form of nitrogen bearing ferro-chrome, and selenium in the form of ferro-selenium.
  • balance iron means that, except for the elements enumerated and iron, the alloy is substantially free of other elements. It does not, however, exclude the presence of small amounts of other elements which do not affect the above described functions of columbium, nitrogen and selenium. Thus, in the specific examples given, the presence of manganese and silicon will be noted and other elements employed as deoxidizers in the melt, and generally used in slight excess, may likewise be present in substantially the same quantities.
  • columbium contents cited throughout the specification may include residual amounts of tantalum, generally not greater than 0.5 percent. Commercial columbium and ferro-columbium contain small amounts of tantalum,
  • An alloy consisting essentially of 32% to 38% nickel, 14% to 20% chromium, up to 1.5% carbon, 1% to 2% manganese, 1% to 2% silicon, 1% to 3% columbium, 0.05 to 0.2% nitrogen, .04% to 0.1% selenium, balance essentially iron.
  • An alloy consisting essentially of 32% to 38% nickel, 14% to 20% chromium, up to 1.5 carbon, 1% to 2% manganese, substantially 1.5% silicon, substantially 2% columbium, 0.1% to 0.15% nitrogen, substantially 0.05% selenium, balance essentially iron.
  • An alloy consisting essentially of substantially 35% nickel, substantially 15% chromium, up to 1.5% carbon, 1% to 2% manganese, substantially 1.5% silicon, substantially 2% columbium, 0.1% to 0.15% nitrogen, substantially 0.05 selenium, balance essentially iron.
  • An alloy consisting essentially of 32% to 38% nickel, 14% to 20% chromium, substantially 0.75% carbon, substantially 1.20% silicon, substantially 2.15% columbium, substantially .13% nitrogen, substantially 0.04% selenium, balance essentially iron.
  • An alloy consisting essentially of substantially 35 nickel, substantially 15 chromium, substantially 0.75% carbon, substantially 1.20% silicon, substantially 2.15% columbium, substantially 0.13% nitrogen, substantially 0.04% selenium, balance essentially iron.
  • a heat resisting casting consisting essentially of substantially 35% nickel, substantially 15% chromium, up to 1.5% carbon, 1% to 2% manganese, 1% to 2% silicon, 1% to 3% columbium, 0.05% to 0.2% nitrogen, substantially .05 selenium, balance essentially iron.
  • a heat resisting casting consisting essentially of 32% to 38% nickel, 14% to 20% chromium, substantially 0.75% carbon, substantially 1.20% silicon, substantially 2.15% columbium, substantially .13% nitrogen, substantially 0.04% selenium, balance essentially iron.
  • a heat resisting casting consisting essentially of substantially 35% nickel, substantially 15% chromium, substantially 0 75.%'-carbon, substantially 1.20%" silicon, substantially 2.15 columbium; substantially .13 nitrogen, substantially 0.04% selenium, balance essentially iron.

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  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Materials Engineering (AREA)
  • Mechanical Engineering (AREA)
  • Metallurgy (AREA)
  • Organic Chemistry (AREA)
  • Heat Treatment Of Steel (AREA)

Description

United States Patent i ALLOYS ASSISTANT 'ro SALT BATHS Peter R. Marsh, Montclair, N. L, assignor to Driver- Harris Company, Harrison, N. J., a corporation of New Jersey No Drawing. Application March 13, 1956 Serial No. 571,142
Claims. (Cl. 75128) This invention relates to alloys, and more particularly to an alloy that is particularly useful in the manufacture of salt pots.
Salt pots, containers for neutral salt baths used in certain metal-treating processes, have been made of a nickel-chromium-iron alloy consisting of substantially 35% nickel, chromium, and balance essentially iron. The life of pots made of such alloys is short, and the pots frequently develop porosity in less than 24 hours. In United States Letters Patent No. 2,451,547, granted October 19, 1948, Howard M. German discloses an alloy in which substantially 2% of columbium is added to the 35-l5 nickel-chromium alloy. Such an alloy has been found to be a useful material for the manufacture of salt pots and its use increases their life toabout 10.0 hours.
I have found that the addition of very small amounts of nitrogen and selenium to an alloy of nickel, chromium and iron containing about 2% columbium greatly increases the life when such alloy is used in the manufacture of neutral salt pots. Such pots may be used for periods of 600 to 800 hours before porosity develops.
As stated the additions have been made to alloys of the 35-15 type, that is, 35 parts nickel, 15 parts chromium and balance iron. These proportions may, of course, vary within certain limits. The nickel content may vary from 32% to 38%, the chromium from 14% to with the balance essentially iron. The various addition elements, carbon, deoxidizers, nitrogen and selenium are added at the expense of the iron content.
The alloy may contain up to 1.5% carbon, from 1% to 2% manganese, from 1% to 2%, preferably more than 1.5 silicon, from 1% to 3% columbium and from 0.1% to 1.5% copper. Nitrogen and selenium are added to the melt in amounts that will leave measurable quantities of these elements in the final alloys. The nitrogen content is preferably between 0.1% and 0.15% but it may vary from 0.05% to 0.2%. The selenium is present in the final alloy in small proportions, less than 0.1%, generally about 0.05 Good results have been obtained from alloys containing as little as 0.01% selenium.
The alloys of the present invention may be prepared in the usual way for producing chromium-nickel-iron alloys. The addition elements are added, preferably during the latter part of the melting period. Columbium may be added'as the pure metal or as the less expensive ferrocolumbium. Nitrogen and selenium are preferably added in the form of nitrogen bearing ferro-chrome, and selenium in the form of ferro-selenium.
2,864,694 Patented pe 1s, 1.95
ice
. 2 a Analysis of typical heats of alloys ance with the invention are:
Throughout the specification and claims the expression balance iron means that, except for the elements enumerated and iron, the alloy is substantially free of other elements. It does not, however, exclude the presence of small amounts of other elements which do not affect the above described functions of columbium, nitrogen and selenium. Thus, in the specific examples given, the presence of manganese and silicon will be noted and other elements employed as deoxidizers in the melt, and generally used in slight excess, may likewise be present in substantially the same quantities.
The columbium contents cited throughout the specification may include residual amounts of tantalum, generally not greater than 0.5 percent. Commercial columbium and ferro-columbium contain small amounts of tantalum,
I claim:
1. An alloy consisting essentially of 32% to 38% nickel, 14% to 20% chromium, up to 1.5% carbon, 1% to 2% manganese, 1% to 2% silicon, 1% to 3% columbium, 0.05 to 0.2% nitrogen, .04% to 0.1% selenium, balance essentially iron.
2. An alloy consisting essentially of substantially 35% nickel, substantially 15% chromium, up to 1.5 carbon, 1% to 2% manganese, 1% to 2% silicon, 1% to 3% columbium, 0.05% to 0.2% nitrogen, .04% to 0.1% selenium, balance essentially iron.
3. An alloy consisting essentially of 32% to 38% nickel, 14% to 20% chromium, up to 1.5 carbon, 1% to 2% manganese, substantially 1.5% silicon, substantially 2% columbium, 0.1% to 0.15% nitrogen, substantially 0.05% selenium, balance essentially iron.
4. An alloy consisting essentially of substantially 35% nickel, substantially 15% chromium, up to 1.5% carbon, 1% to 2% manganese, substantially 1.5% silicon, substantially 2% columbium, 0.1% to 0.15% nitrogen, substantially 0.05 selenium, balance essentially iron.
5. An alloy consisting essentially of 32% to 38% nickel, 14% to 20% chromium, substantially 0.75% carbon, substantially 1.20% silicon, substantially 2.15% columbium, substantially .13% nitrogen, substantially 0.04% selenium, balance essentially iron.
6. An alloy consisting essentially of substantially 35 nickel, substantially 15 chromium, substantially 0.75% carbon, substantially 1.20% silicon, substantially 2.15% columbium, substantially 0.13% nitrogen, substantially 0.04% selenium, balance essentially iron. 1
7. A heat resisting casting consisting essentially of 32% to 38% nickel, 14% to 20% chromium, up to 1.5% carbon, 1% to 2% manganese, 1% to 2% silicon, 1% to 3% columbium, 0.05% to 0.2% nitrogen, .04% to 0.1% selenium, balance essentially iron.
prepared accord- 8. A heat resisting casting consisting essentially of substantially 35% nickel, substantially 15% chromium, up to 1.5% carbon, 1% to 2% manganese, 1% to 2% silicon, 1% to 3% columbium, 0.05% to 0.2% nitrogen, substantially .05 selenium, balance essentially iron.
9. A heat resisting casting consisting essentially of 32% to 38% nickel, 14% to 20% chromium, substantially 0.75% carbon, substantially 1.20% silicon, substantially 2.15% columbium, substantially .13% nitrogen, substantially 0.04% selenium, balance essentially iron.
10. A heat resisting casting consisting essentially of substantially 35% nickel, substantially 15% chromium, substantially 0 75.%'-carbon, substantially 1.20%" silicon, substantially 2.15 columbium; substantially .13 nitrogen, substantially 0.04% selenium, balance essentially iron.
References Cited in the file of this patent UNITED STATES PATENTS German Oct. 8, 1946 Rich Mar. 30, 1948 OTHER REFERENCES

Claims (1)

1. AN ALLOY CONSISTING ESSENTIALLY OF 32% TO 38% NICKEL, 14% TO 20% CHROMIUM, UP TO 1.5% CARBON, 1% TO 2% MANGANESE, 1% TO 2% SILICON, 1% TO 3% COLUMBIUM, 0.05% TO 0.2% NITROGEN, .04% TO 0.1% SELENIUM, BALANCE ESSENTIALLY IRON.
US571142A 1956-03-13 1956-03-13 Alloys assistant to salt baths Expired - Lifetime US2864694A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR2356735A1 (en) * 1976-06-28 1978-01-27 Sheepbridge Alloy Castings Ltd Heat resistant high alloy steel - has a defined niobium content and niobium-carbon ratio, for cast and wrought applications (NL 30.12.77)

Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2408771A (en) * 1944-01-01 1946-10-08 Driver Harris Co Austenitic chromium-nickel-iron alloy
US2438824A (en) * 1945-12-14 1948-03-30 Rich Mfg Corp Alloyed steel

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2408771A (en) * 1944-01-01 1946-10-08 Driver Harris Co Austenitic chromium-nickel-iron alloy
US2438824A (en) * 1945-12-14 1948-03-30 Rich Mfg Corp Alloyed steel

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR2356735A1 (en) * 1976-06-28 1978-01-27 Sheepbridge Alloy Castings Ltd Heat resistant high alloy steel - has a defined niobium content and niobium-carbon ratio, for cast and wrought applications (NL 30.12.77)

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