US1963319A - Piercing point - Google Patents

Piercing point Download PDF

Info

Publication number
US1963319A
US1963319A US520668A US52066831A US1963319A US 1963319 A US1963319 A US 1963319A US 520668 A US520668 A US 520668A US 52066831 A US52066831 A US 52066831A US 1963319 A US1963319 A US 1963319A
Authority
US
United States
Prior art keywords
per cent
piercing
approximately
point
points
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
US520668A
Inventor
Edwin C Wright
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.)
National Tube Co
Original Assignee
National Tube Co
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 National Tube Co filed Critical National Tube Co
Priority to US520668A priority Critical patent/US1963319A/en
Application granted granted Critical
Publication of US1963319A publication Critical patent/US1963319A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • 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

  • novel alloy piercing point of this invention is capable of successfullypiercing high chromium and high chromium nickel alloys and when heat treated in accordance with the method herein set forth its life is materially increased and the quality of pierced work is improved.
  • the plug or point A of Figure 1 is one type of point for use with a thirty-six inch roll piercing mill.
  • the point A is composed of an' integral casting of the special alloy to be described below and comprises a point portion 2, a tapered body portion 3, and a sleeve or neck portion 4 of less diameter than the body and adapted to receive the forward end of the plug-bar of the mill.
  • the plug or point B of Figure 2 is another type of point for use with the thirty-six inch roll piercing mill.
  • the point B is generally of. a smaller diameter than the point A and is for piercing smaller billets.
  • the point B consists of a tapered body 5 and a neck or sleeve 6 having a bore 7 which is extended into thebody 5 of the point to receive the end of the plug-bar.
  • the plug or point C of Figure 3 is for use with a disk type of piercing mill and comprises a long tapered nose portion 9 and a body portion 10 composed of a relatively short straight portion 12 and a rearwardly tapered. portion 13. n The portion 13 is provided with a bore 14 to receive the end of the usual plug-bar.
  • Plugs or points like those described above or any other design of plug or point for piercing I mill operations when made in accordance with this invention, are particularly adapted for use in piercing high chromium or high chromium nickel steel alloy of the stainless type.
  • the plugs or points of this invention are cast from an alloy having the following analysis:
  • a preferred specific alloy for the plugs or points has the following analysis: L
  • the points After the points have been quenched, as above set forth, they are preferably heated to a red heat, that is, to approximately 800 centigrade prior to using them in a piercing operation. This last heating operation is essential since it has been found that it cold pointsare used in piercing they will crack due to the sudden change in temperature. cracking is prevented by heating the-alloy points to a red'heat. While I have shown and described certain, specific forms of piercing plugs or points it will be understood that I do not wish Tobe limited thereto since this invention is applicable 'to any the scope of my invention, as defined in the appended claims.
  • An alloy cast piercing point for use with high chromium or high chromium nickel alloys composed of a ferrous alloy having the following anaIysis-carbon approximately 1 per cent., chromium approximately 17- per cent., nickel approximately 4.5 per cent., manganese approximately .50 per cent.,silicon approximately .35 per cent., sulfur under .05 per cent., and phosphorus under .04 per cent., said point being given a preliminary heat treatment by quenching from a temperature of approximately 1050 centigrade in water.
  • An alloy cast piercing point for use with high chromium or high chromium nickel alloys composed of a ferrous alloy having the following analysis-carbon approximately 1 per cent., chromium approximately 1'7 per cent., nickel approximately 4.5 per cent., manganese approximately .50 per cent., silicon approximately .35 per cent., sulfur under .05 per cent., and phosphorus under .04 per cent., said point being given a preliminary heat treatment by quenching from a temperature of approximately 1050 centigrade in water and again heated to a red heat prior to use in a piercing operation.
  • An alloy cast piercing point for use with high chromium or high chromium nickel alloys composed of a ferrous alloy having the following analysis-carbon approximately 1 per cent., chromium approximately 17 per cent., nickel approximately 4.5 per cent., manganese approximately .50 per cent., silicon approximately .35 per cent., sulfur under .05 per cent., and phosphorus under .04 per cent., said point being given a preliminary heat treatment by quenching from a temperature of 1050 centigrade inwater, and again heated to approximately 800 centigrade prior to use in a piercing operation.

Description

June 19, 1934.
PIERCING POINT Filed March 6, 1951 4660876507. fDW/N C. WE/GH E. c. WRIGHT I 1,963,319
Patented June 19,. 1 93 4 UNITED STATES PATENT. OFFICE PIERCING POINT Edwin C. Wright, Ellwood City, Pa., assignor to National Tube Company, a corporation of New Jersey Application March 6, 1931, Serial No. 520,668
5 Claims.
high chromium and high chromium nickel alloys of the stainless type for the purpose of making seamless tubes due to the failure of the ordinary piercing plugs or points.
The novel alloy piercing point of this invention is capable of successfullypiercing high chromium and high chromium nickel alloys and when heat treated in accordance with the method herein set forth its life is materially increased and the quality of pierced work is improved.
In the drawing:
The several figures show plan views of several types of piercing points or plugs which have been made in accordance with this invention and successfully operated.
The plug or point A of Figure 1 is one type of point for use with a thirty-six inch roll piercing mill. The point A is composed of an' integral casting of the special alloy to be described below and comprises a point portion 2, a tapered body portion 3, and a sleeve or neck portion 4 of less diameter than the body and adapted to receive the forward end of the plug-bar of the mill.
- The plug or point B of Figure 2 is another type of point for use with the thirty-six inch roll piercing mill. The point B is generally of. a smaller diameter than the point A and is for piercing smaller billets. The point B consists of a tapered body 5 and a neck or sleeve 6 having a bore 7 which is extended into thebody 5 of the point to receive the end of the plug-bar.
The plug or point C of Figure 3 is for use with a disk type of piercing mill and comprises a long tapered nose portion 9 and a body portion 10 composed of a relatively short straight portion 12 and a rearwardly tapered. portion 13. n The portion 13 is provided with a bore 14 to receive the end of the usual plug-bar.
Plugs or points like those described above or any other design of plug or point for piercing I mill operations, when made in accordance with this invention, are particularly adapted for use in piercing high chromium or high chromium nickel steel alloy of the stainless type.
The plugs or points of this invention are cast from an alloy having the following analysis:
Carbon"; 1 per cent Chromium 15 to 20 per cent Nickel 3. to 6 percent Manganese -.40 to .60 per cent Silicon .25 to .50 per cent Sulfur under .05 per cent Phosphorus. under .04 per cent Iron to make 100 per cent A preferred specific alloy for the plugs or points has the following analysis: L
Carbon 1 per cent Chromium 17 per cent Nickel -Q 4.5 per cent Manganese"; .50 per cent Silicon .35 per cent Sulfur under .05 per cent Phosphorus .under .04 per cent- Iron to make 100 per cent After the points are cast from the alloy set forth above they are heat treated by quenching from a. temperature of 1050 centigrade in water. This heat treatment serves to materially increase the wearing qualities of the point and the quenching may be done while the points are 3 hot from the casting operation or after a reheating operation, as desired.
After the points have been quenched, as above set forth, they are preferably heated to a red heat, that is, to approximately 800 centigrade prior to using them in a piercing operation. This last heating operation is essential since it has been found that it cold pointsare used in piercing they will crack due to the sudden change in temperature. cracking is prevented by heating the-alloy points to a red'heat. While I have shown and described certain, specific forms of piercing plugs or points it will be understood that I do not wish Tobe limited thereto since this invention is applicable 'to any the scope of my invention, as defined in the appended claims.
I claim:
1. An alloy cast piercing point for use with high chromium or high chromium nickel alloys composed of a ferrous alloy having the following anaIysis-carbon approximately 1 per cent., chromium approximately 17- per cent., nickel approximately 4.5 per cent., manganese approximately .50 per cent.,silicon approximately .35 per cent., sulfur under .05 per cent., and phosphorus under .04 per cent., said point being given a preliminary heat treatment by quenching from a temperature of approximately 1050 centigrade in water.
2. An alloy cast piercing point for use with high chromium or high chromium nickel alloys composed of a ferrous alloy having the following analysis-carbon approximately 1 per cent., chromium approximately 1'7 per cent., nickel approximately 4.5 per cent., manganese approximately .50 per cent., silicon approximately .35 per cent., sulfur under .05 per cent., and phosphorus under .04 per cent., said point being given a preliminary heat treatment by quenching from a temperature of approximately 1050 centigrade in water and again heated to a red heat prior to use in a piercing operation.
3. An alloy cast piercing point for use with high chromium or high chromium nickel alloys composed of a ferrous alloy having the following analysis-carbon approximately 1 per cent., chromium approximately 17 per cent., nickel approximately 4.5 per cent., manganese approximately .50 per cent., silicon approximately .35 per cent., sulfur under .05 per cent., and phosphorus under .04 per cent., said point being given a preliminary heat treatment by quenching from a temperature of 1050 centigrade inwater, and again heated to approximately 800 centigrade prior to use in a piercing operation.
4. The method of heat treating cast piercing points for use with high chromium or high chromium nickel alloys composed of an alloy having the following analysis-carbon approximately 1 per cent., chromium 15 to 20 per cent., nickel 3 to 6 per cent., manganese .40 to .60 per cent., silicon .25 to .50 per cent.,' sulfur under .05 per cent., and phosphorus under .04 per cent., which includes casting said points, quenching said points from a temperature of approximately 1050 centigrade in water, and then reheating said quenched points to a red heat prior to using said points in a piercing operation and maintaining said points at said heat when starting said piercing operation.
5. The method of heat treating cast piercing points for use with high chromium or high chromium nickel alloys composed'of an alloy having the following analysis-carbon approximately 1 per cent., chromium 15 to 20 per cent., nickel 3 to 6 per cent., manganese .40 to .60 per cent., silicon .25 to .50 per cent., sulfur under .05 per cent., and phosphorus under- .04 per cent., which includes casting said points, quenching said points from a temperature of approximately 1050 centigrade in water, and then reheating
US520668A 1931-03-06 1931-03-06 Piercing point Expired - Lifetime US1963319A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US520668A US1963319A (en) 1931-03-06 1931-03-06 Piercing point

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US520668A US1963319A (en) 1931-03-06 1931-03-06 Piercing point

Publications (1)

Publication Number Publication Date
US1963319A true US1963319A (en) 1934-06-19

Family

ID=24073584

Family Applications (1)

Application Number Title Priority Date Filing Date
US520668A Expired - Lifetime US1963319A (en) 1931-03-06 1931-03-06 Piercing point

Country Status (1)

Country Link
US (1) US1963319A (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2576782A (en) * 1948-08-31 1951-11-27 Nat Tube Co Method of making hot mill tools
US3247698A (en) * 1962-04-09 1966-04-26 Mfg Process Lab Inc Hub forming method and apparatus

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2576782A (en) * 1948-08-31 1951-11-27 Nat Tube Co Method of making hot mill tools
US3247698A (en) * 1962-04-09 1966-04-26 Mfg Process Lab Inc Hub forming method and apparatus

Similar Documents

Publication Publication Date Title
CN106119732B (en) A kind of deep-sea oil extracting ship F60 two phase stainless steels pipe joint forging feedstock production process
US1963319A (en) Piercing point
US1891304A (en) Manufacture of pointed tubular metal articles
US2197098A (en) Mandrel
US2325314A (en) Method of making hollow articles
US2673147A (en) Rolling mill roll and composition thereof
GB405643A (en) Ingot steel structural material for boiler shells and heavily stressed pipes
US2022192A (en) Forged steel roll and method of production
US1450699A (en) Process for seamless-tube drawing
US2011976A (en) Cobalt-tungsten-iron alloy
US2179114A (en) Method of making seamless tubes from columbium containing austenitic chromium nickel alloy steel and product thereof
US1807454A (en) Method of using rolling mill piercing points
US1407254A (en) Process of making projectiles
US2125128A (en) Process of heat treating steel
US1986024A (en) Method for increasing the strength of alloys
US2359692A (en) Alloy
US2003710A (en) Metal body resistant to fluctuating stresses
US1509608A (en) Nonferrous alloy
US2027780A (en) Process of treating cobalt-tung-sten-chromium alloys
US1941101A (en) Process for producing a steel having a lesser tendency to blue fracture and brittleness due to ageing
DE561457C (en) For power supply when glowing wires, tapes, etc., certain contact bodies and processes for their manufacture
US2058582A (en) Forged steel roll
JPS589918A (en) Production of sulfide stress corrosion cracking resistant steel material
US2029807A (en) Method of heat treating welded containers
GB424816A (en) Improvements in and relating to resistance welding or heating electrodes