US2147637A - Alloy - Google Patents

Alloy Download PDF

Info

Publication number
US2147637A
US2147637A US173597A US17359737A US2147637A US 2147637 A US2147637 A US 2147637A US 173597 A US173597 A US 173597A US 17359737 A US17359737 A US 17359737A US 2147637 A US2147637 A US 2147637A
Authority
US
United States
Prior art keywords
alloy
thermal treatment
nickel
boron
hardness
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
US173597A
Inventor
Golyer Anthony G De
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.)
Individual
Original Assignee
Individual
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
Application filed by Individual filed Critical Individual
Priority to US173597A priority Critical patent/US2147637A/en
Application granted granted Critical
Publication of US2147637A publication Critical patent/US2147637A/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
    • C22C19/00Alloys based on nickel or cobalt

Definitions

  • the present invention relates to a new and useful alloy containing boron, titanium, tungsten and nickel, which is characterized by being responsive to thermal treatment for the improve- 5 ment of physical properties.
  • An object of thepresent invention is to provide an alloy especially adapted for use as metal cutting tools, the cutting eiiiciency of which is superior to that of heretofore known high speed tools and other alloys.
  • a further object is to provide an alloy which is free from or substantially free from carbon and which is readily amenable to thermal treatment by means of which the hardness, cutting efiiciency, resistance to deformation and other physical properties and characteristics can be accurately controlled over a comparatively wide range.
  • tanium, tungsten and nickel within the range boron 0.50% to 4%, titanium 0.25% to 7%, tungsten 2% to and nickel substantially the balance that I obtain metallic compositions which are readily responsive to thermal treatment by 5 means of which the physical properties and characteristics can be developed and controlled.
  • molybdenum or uranium may be used to supplant all or a portion of the tungsten of the alloy.
  • Alloys of this invention may be used in the cast condition for certain purposes, but approximate maximum values of hardness, resistance to deformation and certain other important physical properties can be developed only through ther- 5 mai treatment or through mechanical working and thermal treatment. Bodies of the alloy which have been subjected to such treatment are particularly valuable for use as tools, dies and the like for the cutting or mechanical working of metals, as well as for many other industrial uses.
  • the present alloy is particularly responsive to thermal treatment for the development of precipitation hardening and I usually prefer to subject the alloy to such thermal treatment before using it for metal cutting tools, dies, etc.
  • cast bodies of the alloy may have a hardness of from to 5'7 on the Rockwall C scale-and by subjecting the material to suitable so thermal treatment such as heating to a temperature higher than approximately 1000 C., followed by rapid quenching, the hardness can be glowe'redito an approximate range of from 35 to 45 Rockwell C.
  • the alloy can subsequently be 5, subjected to a second thermal treatment, such as heating to a temperature lower than 1000 C. for one hour or more, followed by cooling at a normal rate by -which the hardness can be increased to from approximately 58 to Rockwell C.
  • An important property of the alloy is that 5 virtually all of the maximum hardness developed by thermal treatment is retained when the alloy is subjected to temperatures between 500 C. and 750 C. for long periods in various industrial operations. 10
  • Bodies of the alloy which have been subjected to a suitable thermal treatment are particularly resistant to abrasion at normal and elevated temperatures, and are also remarkably resistant to failure from sudden or repeated shock and to 15 mechanical deformation. Consequently, cutting tools, dies and other articles composed of the present alloy retain an efficient cutting edge or working face for unusually long periods of time.
  • chromium may be used as 25 an essential component in the present alloy in an amount from 1% to 15%. 4
  • compositions within the scope of the present invention which I have found well adapted for numerous industrial applica- 30 tions are the following: Boron 1.75%, titanium 3.60%, tungsten 17%, nickel substantially the balance; boron 2.15%, titanium 1%, molybdenum 14%, nickel substantially the balance; boron 2.45%, titanium 1.50%, tungsten 4%, chromium 35 14%, nickel substantially the balance.
  • An object of the present invention is to provide an alloy having high hardness, valuable metal cutting properties, etc. which is free from or substantially free from carbon and thus eliminate all 40 of the serious disadvantages associated with carbon containing alloys or compositions intended for metal cutting tools, etc.
  • I prefer to have the alloys entirely free from carbon in many instances I have found carbon present in the nature of an impurity incidental to manufacture. It is important, however, to restrict the carbon content to a maximum of about 0.15%, as I have found that the presence of higher per- 6 centages of this element not only act to embrittle the alloy but also inhibit or retard the desired or necessary reactions during thermal treatment. Furthermore, the presence of appreciable amounts of carbon decreases the red hardness of the alloy'when it is used as a metal cutting tool.
  • the preferred structure of a body of the present alloy comprises at least two principal constituents; one, a relatively hard intermetallic compound of boron with one or more of the other essential components; and two, a solid solution of two or more of the essential components which has a lower degree of hardness and functions as a matrix.
  • the ratio 01 the constituents, as well as ratio of particle size in any body of the alloy maybe accurately controlled and fixed over a wide range by means of thermal treatment.
  • balance nickel in the foregoing and in the following claims I intend that the alloy 01 the present invention comprise all of the essential components, other than nickel, within the limits specified herein with the remainder nickel, except for substantially ineffectual amounts of impurities which may be present incidental to manufacture.

Description

Patented Feb. 21, 1939 PATENT OFFICE ALLOY Anthony G.' de Golyer, New York, N. Y.
No Drawing. Application November 9, 1937, Serial No. 173,597
3 Claims.
The present invention relates to a new and useful alloy containing boron, titanium, tungsten and nickel, which is characterized by being responsive to thermal treatment for the improve- 5 ment of physical properties.
An object of thepresent invention is to provide an alloy especially adapted for use as metal cutting tools, the cutting eiiiciency of which is superior to that of heretofore known high speed tools and other alloys. A further object is to provide an alloy which is free from or substantially free from carbon and which is readily amenable to thermal treatment by means of which the hardness, cutting efiiciency, resistance to deformation and other physical properties and characteristics can be accurately controlled over a comparatively wide range.
I have found through experiment that by alloying or otherwise intimately combining boron, ti-
tanium, tungsten and nickel within the range boron 0.50% to 4%, titanium 0.25% to 7%, tungsten 2% to and nickel substantially the balance that I obtain metallic compositions which are readily responsive to thermal treatment by 5 means of which the physical properties and characteristics can be developed and controlled.
I have found that molybdenum or uranium may be used to supplant all or a portion of the tungsten of the alloy.
30 Alloys of this invention may be used in the cast condition for certain purposes, but approximate maximum values of hardness, resistance to deformation and certain other important physical properties can be developed only through ther- 5 mai treatment or through mechanical working and thermal treatment. Bodies of the alloy which have been subjected to such treatment are particularly valuable for use as tools, dies and the like for the cutting or mechanical working of metals, as well as for many other industrial uses.
The present alloy is particularly responsive to thermal treatment for the development of precipitation hardening and I usually prefer to subject the alloy to such thermal treatment before using it for metal cutting tools, dies, etc. As an illustration, cast bodies of the alloy may have a hardness of from to 5'7 on the Rockwall C scale-and by subjecting the material to suitable so thermal treatment such as heating to a temperature higher than approximately 1000 C., followed by rapid quenching, the hardness can be glowe'redito an approximate range of from 35 to 45 Rockwell C. The alloy can subsequently be 5, subjected to a second thermal treatment, such as heating to a temperature lower than 1000 C. for one hour or more, followed by cooling at a normal rate by -which the hardness can be increased to from approximately 58 to Rockwell C. An important property of the alloy is that 5 virtually all of the maximum hardness developed by thermal treatment is retained when the alloy is subjected to temperatures between 500 C. and 750 C. for long periods in various industrial operations. 10
Bodies of the alloy which have been subjected to a suitable thermal treatment are particularly resistant to abrasion at normal and elevated temperatures, and are also remarkably resistant to failure from sudden or repeated shock and to 15 mechanical deformation. Consequently, cutting tools, dies and other articles composed of the present alloy retain an efficient cutting edge or working face for unusually long periods of time.
The more important distinctive advantages are 20 apparently due to the presence of appreciable amounts of boron in the composition, in conjunction with the other components within the percentages specified herein.
I have found that chromium may be used as 25 an essential component in the present alloy in an amount from 1% to 15%. 4
Specific examples of compositions within the scope of the present invention which I have found well adapted for numerous industrial applica- 30 tions are the following: Boron 1.75%, titanium 3.60%, tungsten 17%, nickel substantially the balance; boron 2.15%, titanium 1%, molybdenum 14%, nickel substantially the balance; boron 2.45%, titanium 1.50%, tungsten 4%, chromium 35 14%, nickel substantially the balance.
An object of the present invention is to provide an alloy having high hardness, valuable metal cutting properties, etc. which is free from or substantially free from carbon and thus eliminate all 40 of the serious disadvantages associated with carbon containing alloys or compositions intended for metal cutting tools, etc. Although I prefer to have the alloys entirely free from carbon, in many instances I have found carbon present in the nature of an impurity incidental to manufacture. It is important, however, to restrict the carbon content to a maximum of about 0.15%, as I have found that the presence of higher per- 6 centages of this element not only act to embrittle the alloy but also inhibit or retard the desired or necessary reactions during thermal treatment. Furthermore, the presence of appreciable amounts of carbon decreases the red hardness of the alloy'when it is used as a metal cutting tool.
My investigationsindicate that the preferred structure of a body of the present alloy, particularly' after thermal treatment, comprises at least two principal constituents; one, a relatively hard intermetallic compound of boron with one or more of the other essential components; and two, a solid solution of two or more of the essential components which has a lower degree of hardness and functions as a matrix. The ratio 01 the constituents, as well as ratio of particle size in any body of the alloy maybe accurately controlled and fixed over a wide range by means of thermal treatment.
By the term balance nickel in the foregoing and in the following claims I intend that the alloy 01 the present invention comprise all of the essential components, other than nickel, within the limits specified herein with the remainder nickel, except for substantially ineffectual amounts of impurities which may be present incidental to manufacture.
I claim:
1. A precipitation hardened alloy containing boron 0.50% to 4%, titanium 0.25% to 7%, metal selected from the group tungsten, molybdenum and uranium 2% to 30%and the balance nickel.
2. A precipitation hardened alloy containing boron 0.50% to 4%, titanium 0.25% to 7%, tungstem 2% to 30% and the balance nickel.
3. A precipitation hardened alloy containing boron 0.50% to 4%, titanium 0.25% to 7%. molybdenum 2% to 30% and'the balance nickel.
Ami tom? GI m: GOLYER.
US173597A 1937-11-09 1937-11-09 Alloy Expired - Lifetime US2147637A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US173597A US2147637A (en) 1937-11-09 1937-11-09 Alloy

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US173597A US2147637A (en) 1937-11-09 1937-11-09 Alloy

Publications (1)

Publication Number Publication Date
US2147637A true US2147637A (en) 1939-02-21

Family

ID=22632745

Family Applications (1)

Application Number Title Priority Date Filing Date
US173597A Expired - Lifetime US2147637A (en) 1937-11-09 1937-11-09 Alloy

Country Status (1)

Country Link
US (1) US2147637A (en)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2699993A (en) * 1951-06-29 1955-01-18 Union Carbide & Carbon Corp Welding rods for hard-facing
US2754258A (en) * 1951-02-07 1956-07-10 Platers Res Corp Gold alloy plating
US3269834A (en) * 1962-09-28 1966-08-30 Carpenter Steel Co Magnetic alloys

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2754258A (en) * 1951-02-07 1956-07-10 Platers Res Corp Gold alloy plating
US2699993A (en) * 1951-06-29 1955-01-18 Union Carbide & Carbon Corp Welding rods for hard-facing
US3269834A (en) * 1962-09-28 1966-08-30 Carpenter Steel Co Magnetic alloys

Similar Documents

Publication Publication Date Title
US2147637A (en) Alloy
US2097177A (en) Alloy
US2126750A (en) Alloy
US2097176A (en) Alloy
US2357450A (en) Aluminum alloy
US2147636A (en) Alloy
US2097178A (en) Alloy
US2097181A (en) Alloy
US2126745A (en) Alloy
US2126749A (en) Alloy
US3597193A (en) Vanadium base alloy
US2126746A (en) Alloy
US2126748A (en) Alloy
US2137283A (en) Copper alloys
US3707409A (en) Nickel base alloy
US3061427A (en) Alloy of titanium
US2126742A (en) Alloy
US2213207A (en) Alloy
US2097179A (en) Alloy
US2126744A (en) Alloy
US2126747A (en) Alloy
US2236975A (en) Copper-zinc alloys
US2126743A (en) Boron alloy
US2076575A (en) Free cutting alloys
US1221769A (en) Alloy.