US2693121A - Method of making composite aluminum-lined steel-backed bearing material - Google Patents

Method of making composite aluminum-lined steel-backed bearing material Download PDF

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Publication number: US2693121A
Authority: US; United States
Prior art keywords: strip; aluminum; steel; rolling; bearing material
Prior art date: 1952-01-15
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

US266543A

Inventor

Dight James

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.)

Johnson Bronze Co

Original Assignee

Johnson Bronze 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.)

1952-01-15

Filing date

1952-01-15

Publication date

1954-11-02

1952-01-15 Application filed by Johnson Bronze Co filed Critical Johnson Bronze Co

1952-01-15 Priority to US266543A priority Critical patent/US2693121A/en

1954-11-02 Application granted granted Critical

1954-11-02 Publication of US2693121A publication Critical patent/US2693121A/en

1971-11-02 Anticipated expiration legal-status Critical

Status Expired - Lifetime legal-status Critical Current

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- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23K—SOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
- B23K20/00—Non-electric welding by applying impact or other pressure, with or without the application of heat, e.g. cladding or plating
- B23K20/22—Non-electric welding by applying impact or other pressure, with or without the application of heat, e.g. cladding or plating taking account of the properties of the materials to be welded
- B23K20/227—Non-electric welding by applying impact or other pressure, with or without the application of heat, e.g. cladding or plating taking account of the properties of the materials to be welded with ferrous layer
- B23K20/2275—Non-electric welding by applying impact or other pressure, with or without the application of heat, e.g. cladding or plating taking account of the properties of the materials to be welded with ferrous layer the other layer being aluminium

Definitions

This invention relates to a method of making composite aluminum-lined steel-backed bearing material which may be formed into bearings having a steel backing and an aluminum lining.
Such composite bearing material is now made commercially by hot rolling an aluminum strip on a silver-plated steel strip. Instead of plating the steel with silver, it may be plated with copper or nickel or alloys thereof.
the aluminum bearing alloy strip may be rolled onto these plating metals directly or an intermediate bonding layer may be employed between the plated steel and the aluminum bearing layer, which intermediate bonding layer may be either commercially pure aluminum or aluminum alloy, and the intermediate bonding layer may be either a separate strip or may be clad to the aluminum bearing alloy.
the rolls which have been used prior to my invention have been cylindrical.
this poor bonding of the aluminum to the steel at the edges of the composite strip is due to loss in rolling pressure near the edges caused by sliding of the aluminum relative to the steel in a direc tion perpendicular to the direction of rolling.
this poor honding at the edges can be overcome or at least minimized by employing a roll of such shape that the aluminum strip is confined at its edges so that rolling pressure is maintained but movement of the aluminum strip relative to the steel strip in a direction perpendicular to the direction of rolling is prevented or minimized.
a confining roll By employing such a confining roll, a good bond may be obtained for the full width of the strip and it is only necessary to trim enough from the edges to bring the strip to a finished size.
Figure 1 illustrates an assembly of an aluminum strip on a steel strip before rolling
Figure 2 is a vertical section through the strips during rolling, the rolls being shown in elevation.
the lower roll 2 is the usual roll having necks 3 and a cylindrical body portion 4 of uniform diameter throughout its length.
the upper roll 5 is a stepped roll having necks 6, two cylindrical body portions 7, a cylindrical body portion 8 having a diameter less than the diameters of the body portions 7, and two stepped portions 9 connecting the body portions 7 and 8.
FIG 1 there is shown an assembly comprising a steel strip 10 on which is placed a strip 11 of aluminum bearing alloy.
the aluminum bearing alloy strip 11 is placed on the steel strip 10, the width of the aluminum strip 11 being slightly less than the width of the steel strip 10, and being approximately the same width as the width of the body portion 8 of the roll 5.
the two strips are heated to a temperature suitable for rolling, for example 800 F., and are then passed between the two rolls 2 and 5 so as to reduce the thickness of the aluminum strip and bond it to the steel strip.
the aluminum strip is reduced in thickness by the rolling to an extent of about 65
the stepped portions 9 confine the edges 12 of the aluminum strip, thereby preventing it from sliding relative to the steel strip 10 in a direction perpendicular to the direction of rolling.
the portion 8 of the roll 5 exerts pressure on the exposed face 15 of the aluminum strip 11, while the stepped portions 9 of the roll 5 simultaneously exert pressure on the edges 12 of the aluminum strip in a direction perpendicular to the direction of rolling.
the steel strip may be plated with silver, copper, or nickel or alloy thereof, that an aluminum bonding alloy may be interposed between the plated steel and the aluminum strip 11, and that the interposed aluminum bonding layer may be either a separate layer or clad to the aluminum strip 11.
the method of making composite aluminum-lined steel-backed bearing material which comprises placing a strip of aluminum on a steel strip to form an assembly, the adjacent faces of said strips being smooth, heating the assembly and hot rolling it to reduce the thickness of the aluminum strip and bond it to the steel strip, and during such hot rolling, confining the edges of the portion of the aluminum strip being hot rolled against movement in a direction perpendicular to the direction of rolling while leaving the edges of the steel strip unconfined.
the method of making composite aluminum-lined steel-backed bearing material which comprises placing a flat strip of aluminum on a flat steel strip to form an assembly, the adjacent faces of said strips being smooth, heating the assembly and hot rolling it to reduce the thickness of the aluminum strip and bond it to the steel strip, and during such hot rolling, confining the edges of the portion of the aluminum strip being hot rolled against movement in a direction perpendicular to the direction of rolling while leaving the edges of the steel strip unconfined.

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Engineering & Computer Science (AREA)
Mechanical Engineering (AREA)
Pressure Welding/Diffusion-Bonding (AREA)

Description

Nov. 2, 1954 2,693,121

J. DIGHT METHOD OF MAKING COMPOSITE ALUMINUMLINED WEEL'BACKED BEARING MATERIAL Mleci Jan.

Fig.

INVENTOR. James Dig/H BY WM 78-0 41? 'H/S ATTORNEYS United States NIETHOD OF MAKING COMPOSITE ALUMINUM- LINED STEEL-BACKED EEARING MATERIAL Application .lanuary 15, 1952, Serial No. 266,543

3 Claims. (Cl. 7893) This invention relates to a method of making composite aluminum-lined steel-backed bearing material which may be formed into bearings having a steel backing and an aluminum lining. Such composite bearing material is now made commercially by hot rolling an aluminum strip on a silver-plated steel strip. Instead of plating the steel with silver, it may be plated with copper or nickel or alloys thereof. The aluminum bearing alloy strip may be rolled onto these plating metals directly or an intermediate bonding layer may be employed between the plated steel and the aluminum bearing layer, which intermediate bonding layer may be either commercially pure aluminum or aluminum alloy, and the intermediate bonding layer may be either a separate strip or may be clad to the aluminum bearing alloy. The rolls which have been used prior to my invention have been cylindrical.

One difficulty that has been encountered in carrying out the prior known method is poor bonding at the edges of the composite strip material. In general, the portion at the edges which does not bond properly is from A3 to /2" in width, depending on the particular rolling conditions. This is costly since these edges have to be cropped oil in order to eliminate the area of poor bond.

1 have discovered that this poor bonding of the aluminum to the steel at the edges of the composite strip is due to loss in rolling pressure near the edges caused by sliding of the aluminum relative to the steel in a direc tion perpendicular to the direction of rolling. I have discovered further that this poor honding at the edges can be overcome or at least minimized by employing a roll of such shape that the aluminum strip is confined at its edges so that rolling pressure is maintained but movement of the aluminum strip relative to the steel strip in a direction perpendicular to the direction of rolling is prevented or minimized. By employing such a confining roll, a good bond may be obtained for the full width of the strip and it is only necessary to trim enough from the edges to bring the strip to a finished size.

In the accompanying drawings which illustrate the invention in a somewhat diagrammatic manner:

Figure 1 illustrates an assembly of an aluminum strip on a steel strip before rolling; and

Figure 2 is a vertical section through the strips during rolling, the rolls being shown in elevation.

Referring more particularly to the accompanying drawings, the lower roll 2 is the usual roll having necks 3 and a cylindrical body portion 4 of uniform diameter throughout its length. The upper roll 5 is a stepped roll having necks 6, two cylindrical body portions 7, a cylindrical body portion 8 having a diameter less than the diameters of the body portions 7, and two stepped portions 9 connecting the body portions 7 and 8.

In Figure 1, there is shown an assembly comprising a steel strip 10 on which is placed a strip 11 of aluminum bearing alloy.

atent O1 Patented Nov. 2, 1954 In carrying out the method, the aluminum bearing alloy strip 11 is placed on the steel strip 10, the width of the aluminum strip 11 being slightly less than the width of the steel strip 10, and being approximately the same width as the width of the body portion 8 of the roll 5. The two strips are heated to a temperature suitable for rolling, for example 800 F., and are then passed between the two rolls 2 and 5 so as to reduce the thickness of the aluminum strip and bond it to the steel strip. Preferably the aluminum strip is reduced in thickness by the rolling to an extent of about 65 During the rolling, the stepped portions 9 confine the edges 12 of the aluminum strip, thereby preventing it from sliding relative to the steel strip 10 in a direction perpendicular to the direction of rolling. During rolling, the portion 8 of the roll 5 exerts pressure on the exposed face 15 of the aluminum strip 11, while the stepped portions 9 of the roll 5 simultaneously exert pressure on the edges 12 of the aluminum strip in a direction perpendicular to the direction of rolling. By employing such method, it has been found that good bonding may be obtained for the full width of the steel strip and it is only necessary to trim enough from the edges to bring the strip to a finished size.

While the method has been described as applied to.

bonding the aluminum strip 11 directly to the steel strip 10, it is to be understood that the steel strip may be plated with silver, copper, or nickel or alloy thereof, that an aluminum bonding alloy may be interposed between the plated steel and the aluminum strip 11, and that the interposed aluminum bonding layer may be either a separate layer or clad to the aluminum strip 11.

The invention is not limited to the preferred embodiment but may be otherwise embodied or practiced within the scope of the following claims.

I claim:

1. The method of making composite aluminum-lined steel-backed bearing material, which comprises placing a strip of aluminum on a steel strip to form an assembly, the adjacent faces of said strips being smooth, heating the assembly and hot rolling it to reduce the thickness of the aluminum strip and bond it to the steel strip, and during such hot rolling, confining the edges of the portion of the aluminum strip being hot rolled against movement in a direction perpendicular to the direction of rolling while leaving the edges of the steel strip unconfined.

2. The method of making composite aluminum-lined steel-backed bearing material, which comprises placing a flat strip of aluminum on a flat steel strip to form an assembly, the adjacent faces of said strips being smooth, heating the assembly and hot rolling it to reduce the thickness of the aluminum strip and bond it to the steel strip, and during such hot rolling, confining the edges of the portion of the aluminum strip being hot rolled against movement in a direction perpendicular to the direction of rolling while leaving the edges of the steel strip unconfined.

3. The method according to claim 1, wherein the hot rolling reduces the thickness of the aluminum strip about 65%.

References Cited in the file of this patent UNITED STATES PATENTS Number Name Date 1,302,564 Klocke May 6, 1919 1,955,072 Jordan Apr. 17, 1934 2,539,248 Lynch et a1. Jan. 23, 1951

US266543A 1952-01-15 1952-01-15 Method of making composite aluminum-lined steel-backed bearing material Expired - Lifetime US2693121A (en)

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Application Number	Priority Date	Filing Date	Title
US266543A US2693121A (en)	1952-01-15	1952-01-15	Method of making composite aluminum-lined steel-backed bearing material

Applications Claiming Priority (1)

Application Number	Priority Date	Filing Date	Title
US266543A US2693121A (en)	1952-01-15	1952-01-15	Method of making composite aluminum-lined steel-backed bearing material

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Cited By (11)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
US2879587A (en) *	1954-07-23	1959-03-31	Gen Motors Corp	Method for making composite stock
US2908073A (en) *	1957-06-07	1959-10-13	Aluminum Co Of America	Method of bonding aluminous metal to dissimilar metal
US2954600A (en) *	1954-10-13	1960-10-04	Schiffmann Alois	Method for the production of contactsafe and corrosion-proof twin metal connectors for electric power conductors
US3078563A (en) *	1959-10-23	1963-02-26	Federal Mogul Bower Bearings	Method of bonding aluminum to steel by roll pressure
US3114202A (en) *	1960-03-24	1963-12-17	Olin Mathieson	Method of pressure welding metal sheets
US3165828A (en) *	1960-09-16	1965-01-19	Revere Copper & Brass Inc	Method of roll-bonding copper to steel
US3195991A (en) *	1960-11-07	1965-07-20	Repco Ltd	Production of composite metal strip suitable for the manufacture of bearings
US3620880A (en) *	1969-04-07	1971-11-16	Jerome H Lemelson	Apparatus and method for producing composite materials
US3639974A (en) *	1970-02-02	1972-02-08	Kaiser Aluminium Chem Corp	Roll bonding an aluminum-ferrous composite with grooved rolls
US6189770B1 (en) *	1996-12-18	2001-02-20	Honsel Ag	Method of producing sectional strips and sectional sheets
EP1215038A2 (en) *	2000-12-12	2002-06-19	Daido Metal Company Ltd.	Method of making aluminum alloy plate for bearing

Citations (3)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
US1302564A (en) *	1917-07-21	1919-05-06	Pressed Bearing Company Inc	Process of making lined bearings.
US1955072A (en) *	1930-02-02	1934-04-17	Jordan Frans	Device for introducing superposed plates of different metals
US2539248A (en) *	1945-09-19	1951-01-23	Mallory & Co Inc P R	Method of bonding aluminum alloys to steel

1952
- 1952-01-15 US US266543A patent/US2693121A/en not_active Expired - Lifetime

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
US1302564A (en) *	1917-07-21	1919-05-06	Pressed Bearing Company Inc	Process of making lined bearings.
US1955072A (en) *	1930-02-02	1934-04-17	Jordan Frans	Device for introducing superposed plates of different metals
US2539248A (en) *	1945-09-19	1951-01-23	Mallory & Co Inc P R	Method of bonding aluminum alloys to steel

Cited By (13)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
US2879587A (en) *	1954-07-23	1959-03-31	Gen Motors Corp	Method for making composite stock
US2954600A (en) *	1954-10-13	1960-10-04	Schiffmann Alois	Method for the production of contactsafe and corrosion-proof twin metal connectors for electric power conductors
US2908073A (en) *	1957-06-07	1959-10-13	Aluminum Co Of America	Method of bonding aluminous metal to dissimilar metal
US3078563A (en) *	1959-10-23	1963-02-26	Federal Mogul Bower Bearings	Method of bonding aluminum to steel by roll pressure
US3114202A (en) *	1960-03-24	1963-12-17	Olin Mathieson	Method of pressure welding metal sheets
US3165828A (en) *	1960-09-16	1965-01-19	Revere Copper & Brass Inc	Method of roll-bonding copper to steel
US3195991A (en) *	1960-11-07	1965-07-20	Repco Ltd	Production of composite metal strip suitable for the manufacture of bearings
US3620880A (en) *	1969-04-07	1971-11-16	Jerome H Lemelson	Apparatus and method for producing composite materials
US3639974A (en) *	1970-02-02	1972-02-08	Kaiser Aluminium Chem Corp	Roll bonding an aluminum-ferrous composite with grooved rolls
US6189770B1 (en) *	1996-12-18	2001-02-20	Honsel Ag	Method of producing sectional strips and sectional sheets
EP1215038A2 (en) *	2000-12-12	2002-06-19	Daido Metal Company Ltd.	Method of making aluminum alloy plate for bearing
US6439451B1 (en) *	2000-12-12	2002-08-27	Daido Metal Company Ltd.	Method of making aluminum alloy plate for bearing
EP1215038A3 (en) *	2000-12-12	2008-09-03	Daido Metal Company Ltd.	Method of making aluminum alloy plate for bearing

Publication	Publication Date	Title
US2693121A (en)	1954-11-02	Method of making composite aluminum-lined steel-backed bearing material
US2473712A (en)	1949-06-21	Procedure for making multiply metal stock
US2782498A (en)	1957-02-26	Method for making composite stock
US4224978A (en)	1980-09-30	Method of manufacturing composite strips by continuous casting
US2735170A (en)	1956-02-21	Method-of producing a multilayer strep
US2558093A (en)	1951-06-26	Procedure for making composite metal strip
US2490549A (en)	1949-12-06	Method of making composite stock
US2809422A (en)	1957-10-15	Method of making a composite article
US2744314A (en)	1956-05-08	Method of making multiply metal
US2373116A (en)	1945-04-10	Method of uniting metals
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US3276103A (en)	1966-10-04	Method of applying a thin bearing metal strip to a porous layer of a composite backing strip
US3300837A (en)	1967-01-31	Method of making bimetallic bearing material
US3443305A (en)	1969-05-13	Method of manufacturing a composite metallic wire
US2102394A (en)	1937-12-14	Method of making composite ferrous metal articles
US4622189A (en)	1986-11-11	Flat products comprising at least two bonded layers
US2267665A (en)	1941-12-23	Method of plating metals
US2152842A (en)	1939-04-04	Metal attenuating process and apparatus
DE966193C (en)	1957-07-11	Process for joining metals of the same type by pressure without a substantial supply of heat
US3406445A (en)	1968-10-22	Method for coating steel with white metal
US3133346A (en)	1964-05-19	Method for bonding metals
US1753435A (en)	1930-04-08	Method of making lined bearings
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