US1819344A - Brake lining and method of making the same - Google Patents
Brake lining and method of making the same Download PDFInfo
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- US1819344A US1819344A US267563A US26756328A US1819344A US 1819344 A US1819344 A US 1819344A US 267563 A US267563 A US 267563A US 26756328 A US26756328 A US 26756328A US 1819344 A US1819344 A US 1819344A
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- Prior art keywords
- yarn
- compound
- tape
- brake lining
- asbestos
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16D—COUPLINGS FOR TRANSMITTING ROTATION; CLUTCHES; BRAKES
- F16D69/00—Friction linings; Attachment thereof; Selection of coacting friction substances or surfaces
- F16D69/02—Compositions of linings; Methods of manufacturing
- F16D69/021—Compositions of linings; Methods of manufacturing containing asbestos
- F16D69/022—Compositions of linings; Methods of manufacturing containing asbestos in the form of fibres
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10S—TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10S428/00—Stock material or miscellaneous articles
- Y10S428/92—Fire or heat protection feature
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T428/00—Stock material or miscellaneous articles
- Y10T428/29—Coated or structually defined flake, particle, cell, strand, strand portion, rod, filament, macroscopic fiber or mass thereof
- Y10T428/2913—Rod, strand, filament or fiber
- Y10T428/2933—Coated or with bond, impregnation or core
- Y10T428/2936—Wound or wrapped core or coating [i.e., spiral or helical]
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T442/00—Fabric [woven, knitted, or nonwoven textile or cloth, etc.]
- Y10T442/30—Woven fabric [i.e., woven strand or strip material]
- Y10T442/3065—Including strand which is of specific structural definition
- Y10T442/3073—Strand material is core-spun [not sheath-core bicomponent strand]
Definitions
- the yarn from which the fabric is woven consists of a reinforcing core enclosed in an asbestos covering, the core preferably being a soft metal wire and the covering preferably being a strip of asbestos felt paper wrapped about the core and bound by oppositely disposed binding wires.
- Such yarn may be produced by the yarn forming machine disclosed in the co-pending application of Edward Slade, Serial No. 37,606, filed June 7 1925, or in the co-pending application 0 Edward Slade filed on even date herewith and bearing Serial No. 267 ,564.
- Tigure 1 discloses a brake lining tape produced in accordance with a preferred form of the invention.
- Fig. 2 discloses the preferred form of yarn from which the tape is woven.
- the tape 10 preferably is a multiple interwoven ply fabric having warp and weft "strands 12 and 11, each of which comprises a wire core 13 enclosed in a strip of asbestos am 14 which is wrapped about the core and field in place by oppositely wound binding wires 15 and 16.
- the strands 11 and 12 may be produced by a machine such as disclosed in the co-pending application of Edward Slade, Serial No. 37,606, filed June 17, 1925. and the tape is woven from these strands by a suitable loom.
- the tape may be formed of yarn such as made on a machine like that disclosed in the co-pending application of Edward Slade, filed on even date herewith and bearing Serial No. 267,564, and if desired the warp or the weft strands may be bare wire.
- Any suitable waterproofing heat-resisting impregnatin compound may be used in th treatment of the yarn.
- An impregnating compound which has been found to operat satisfactorily comprises a mixture of gil sonite, asphalt, China-wood oil, linseed oi and kerosene. oil in approximately equa parts dissolved in benzol and gasoline a solvents. This compound is very satisfac tory due to the fact that it thoroughly im pregnates the yarn to make it waterproo and heat-resisting and comprises solvent which are easily volatile.'
- the cold water has the effect of keeping the yarn soft and pliable, as the compound will not set unless exposed to the open air ai'ter the curing operation.
- the cops are immediately immersed in a tank of thin mineral oil after they have been taken from the hot water tank.
- the cops are left in the thin mineral oil until they have been thoroughly soaked, after which they are packed in boxes allowed to stand for a few hours before being used in the weav-
- the baskets of cops are soaked in the mineral oil before ,being used.'
- the mineral oil maintains the yarn and the fabric woven therefrom in plastic condition until such time as the setting of the impregnating compound is effected.
- the yarn is now thoroughly impregnated with water-proofing heat-resisting compound which has been cured but which has not yet set so that the yarn is still very pliable andmay he therefore readily woven.
- the yarn is then woven into brake lining tape on a suitable loom and may be woven single or multiple ply of any combination desired properly to bind the various plies together.
- the tape is highly compacted in the .process of weaving but retains its-plasticity for several hours due to the mineral oil treatment. After the tape has been woven and removed from the loom, it is still plastic and is passed through a calender or the like to shape, compactnand smooth it as well as squeeze out the excess moisture.
- the tape is then coiled and-arranged upon suitable trays by means of which it may be immersed in a second tank of compound similar to the first compound, if so desired.
- the second compound need not be of exactly the same density as the first, but it has similar waterproofing and heat-resisting characteristics.
- Fig. 1 shows .the form of weave which may be used in the tape and therear portion of the figure shows the appearance of the tape after it has been impregnated, with the waterproof heat-reis a solid homogeneous mass.
- the identity of the yarn is completely disguised with the result that the ori inal shape of the strip of asbestos felt paper used to make the yarn is destroyed and the asbestos fiber completely matted together with the compound and the wire throughout the entire length of the lining and, as the wires are woven with a very close mesh, the whole mass is firmly held in place. All the voids which are to be found in the ordinary typeof lining completely are filled up and the lining has the appearance of a solid piece of material, there being no visible appearance of woven mesh. This condition is further effected by the pressure to which the tape is subjected when it is passed through the sizing rolls or calcnders just after it'has been taken from the loom while still in plastic condition.
- the final structure is extremely compact and has the characteristics of a molded product rather than a woven product and
- the ultimate product obtained by the process herein described is a brake lining of great density and having no pores wherein moisture can. accumulate.
- the yarn used in the weaving-o'f the product has been thoroughly impregnated with waterproof heat-resisting I compound, each individual asbestos fiber has been coated and made non-absorbent. This makes the finished product permanent in its characteristics and it cannot swell due to moisture, a feature found objectionable in the present type of brake lining.
- the'binding material or starch used in the producing of the paper from asbestos pulp is mostly removed and is not appreciably present in the finished product.
- the starch or the like is partly separated from the asbestos paper when the latter passes through the yarn-formingmachine.
- starch comes to the surface of the yarn in fine scale so that, when the dry yarn is wound into cops before being impregnated, the same is sloughed ofi' in the winding operation.
- the yarn is'being treated with the impregnating compound and carried through the curing process in the hot water and mineral oil,the majority of the balance of starch in the asbestos paper is loosened and comes to the surface of the'treated yarn so that, as the strands of yarn are woven into the fabric on :the loom most of this residue of starch is squeezed out and is automatically scraped off v the Woven material with the surplus compound which the starch absorbs.
- Brake lining formed accordingto this process is of very great density and compactness and has a high coefficient of friction and .a low wear factor. After it has been riveted to a brake band or shoe, it cannotthe compact arrangement of the interlacing.
- the pro-impregnating process herein described and the resulting compacted brake lining fabric composed of a homogeneous mass of wire and asbestos material having the characteristics of a molded product are not limited to the particular stuff or form of material described but the scope of the invention is limited only as defined in the claims appended hereto.
- a yarn composed of wire and asbestos felted paper of the character descrlbed and the best results in the finished brake lining product are thereby achieved, still many of the advantages of the invention may be secured in connection with the manufacture of brake lining composed of yarn made of spun fiber asbestos material and other forms of asbestos yarn heretofore known.
- the process of making brake lining which comprises pre-impregnating a yarn composed of wire and asbestos material with a waterproof heat-resisting compound, treating the yarn to cure the compound without setting the same, treating said yarn with mineral oil to maintain it in plastic condition, Weaving the yarn, into tape, treating the tape to set the impregnating compound andsubjecting the tape to pressure to compact the same.
- the process of making brake lining which comprises immersing asbestos yarn in a solution of a mixture of gilsonite, asphalt and oil, evaporating the more volatile constituents of the solvent, treating the yarn to cure the impregnating compound without setting the same, treating said yarn to maintain it in plastic condition, weaving the yarn into fabric and subsequently treating the yarn to set the compound and to compact the fabric.
- the process of making brake lining which comprises pre-impregnating a yarn composed of wire and asbestos material in a solution of waterproof heat-resisting compound, evaporating the more volatile constituents of the solvent for said compound while preventing setting of the compound, immersing the impregnated tape in mineral oil to maintain the same in plastic condition, weaving the impregnated yarn into tape, immersing said tape in a solution of a Waterproof heat-resisting compound, baking the immersed tape completely to evaporate the solvent for the compound and to set the same, and subsequently calendering said tape.
- a brake lining fabric comprising interwoven warp and weft strands, each strand being composed ,of an asbestos paper sheath folded lengthwise about a metal core and binding wires oppositely wound thereabout, said-asbestos being impregnated with heatresisting waterproof compound prior to being woven and the fabricbeing compacted to produce a smooth exterior surface.
- the process of making brake lining which comprises enclosing a metal core in an asbestos strip to form yarn, impregnating the yarn with a solution of water-proofv heat-resisting compound, evaporatin the more volatile constituents of the so vent, curing the compound without settin same, weaving t e yarn into tape an su sequently treating the tape to set the impregnating compound and to compact the 14.
- the process of making brake liiiing which comprises impre nating an asbestos yarn with a solution 0 water-proof heat-V resisting compound, evaporating the more volatile constituents of the solvent, curing the impregnating compound without setting the same, weaving the yarn into a fabric the impregnated com ound.
- the process 0 making brake lining which comprises impregnating asbestos yarn with a solution of water-proof heat-resisting compound, evaporating the more volatile constituents of thesolvent, curing the compound without setting the same, treatingjsaid yarn to maintain. it in plastic condition, weaving the yarn into fabric and subsequently treating the fabric to set the impregnating compound.
- a brake lining fabric composed ,of warp and weft strands, each strand being tially the same length, and binding wires oppositely wound around said paper to bind the same to the core.
- a brake lining fabric composed of interwoven warp and weft strands, each strand being composed of metal core enclosed in a strip of asbestos paper substantially co-extensive in length therewith and being rolled lengthwise around the same, and a binding wire wrapped around said paper strip.
- a brake lining fabric comprising interwoven warp and weft strands, each strand being composed of a metal core enclosed by a strip of asbestos paper substantially co-extensive in length therewith and rolled lengthwise about the same, and a binding wire wrapped about said aper, said paper being preimpregnated wit a. heat resisting water-proof compound andthe fabric being compacted to produce a smooth exterior surface.
- a brake lining fabric comprising interwoven Warp and weft strands, each strand comprising a strip of'asbestos paper rolled lengthwise about a metal core of substan-' tially the same length, and binding wires the
Description
E. SLADE Aug. 18, 193].
BRAKE LINING 'ANDMETHOD OF MAKING THE SAME Filed April 5. 1928 .l in? Eatentecl Aug. 18, 1931 UNITED STATES PATENT OFFICE EDWARD SLADE, OF NEW YORK, N. Y.
BRAKE LINING AND METHOD OF MAKING THE SAME Application filed April 5, 1928; Serial No. 267,563.
.which the compound is treated to harden or set the same. The resulting fabric is then compacted to form a homogeneous mass having the characteristics of a molded product.
In the preferred form of this invention, the yarn from which the fabric is woven consists of a reinforcing core enclosed in an asbestos covering, the core preferably being a soft metal wire and the covering preferably being a strip of asbestos felt paper wrapped about the core and bound by oppositely disposed binding wires. Such yarn may be produced by the yarn forming machine disclosed in the co-pending application of Edward Slade, Serial No. 37,606, filed June 7 1925, or in the co-pending application 0 Edward Slade filed on even date herewith and bearing Serial No. 267 ,564.
Other objects, novel features and advantages of this invention will be apparent from the following specification and accompanyin drawings, wherein Tigure 1 discloses a brake lining tape produced in accordance with a preferred form of the invention; and.
Fig. 2 discloses the preferred form of yarn from which the tape is woven.
The tape 10 preferably is a multiple interwoven ply fabric having warp and weft " strands 12 and 11, each of which comprises a wire core 13 enclosed in a strip of asbestos am 14 which is wrapped about the core and field in place by oppositely wound binding wires 15 and 16. The strands 11 and 12 may be produced by a machine such as disclosed in the co-pending application of Edward Slade, Serial No. 37,606, filed June 17, 1925. and the tape is woven from these strands by a suitable loom. Or the tape may be formed of yarn such as made on a machine like that disclosed in the co-pending application of Edward Slade, filed on even date herewith and bearing Serial No. 267,564, and if desired the warp or the weft strands may be bare wire.
In these machines, an asbestos strip is formed over a wire core and the binding wires applied. The yarn as it comes from .the machine is wet and after being thoroughly dried, it is wound into cops of propor size for use in a loom shuttle. The co are then subjected to a treatment thorouglily to impregnate the yarn with a waterproof heat-resisting compound. The impregnating operation is accomplished b piling the cops into wire mesh baskets and then immersing the same in a solution of z: Waterproofing heat-resisting compound for a sufficient length of time to permit tlu yarn to become thoroughly saturated witl the compound. The baskets are then lifter from the compound tank and the surplu: compound permitted to drain off, afte which the cops are placed in an air cham her where the more highly volatile solvent.-
of the compound are evaporated. The sann baskets of cops are then placed in very ho water for several minutes to cure the com pound in the yarn without hardening thl same. I
Any suitable waterproofing heat-resisting impregnatin compound may be used in th treatment of the yarn. An impregnating compound which has been found to operat satisfactorily comprises a mixture of gil sonite, asphalt, China-wood oil, linseed oi and kerosene. oil in approximately equa parts dissolved in benzol and gasoline a solvents. This compound is very satisfac tory due to the fact that it thoroughly im pregnates the yarn to make it waterproo and heat-resisting and comprises solvent which are easily volatile.'
After the hot water curing process, th baskets of cops are stored in tanks of col water if they are not to be used right away ing of the fabric.
The cold water has the effect of keeping the yarn soft and pliable, as the compound will not set unless exposed to the open air ai'ter the curing operation. if it is desired to make use of the yarn at once, the cops are immediately immersed in a tank of thin mineral oil after they have been taken from the hot water tank. The cops are left in the thin mineral oil until they have been thoroughly soaked, after which they are packed in boxes allowed to stand for a few hours before being used in the weav- Also after being taken from the cold water storage tanks, the baskets of cops are soaked in the mineral oil before ,being used.' The mineral oil maintains the yarn and the fabric woven therefrom in plastic condition until such time as the setting of the impregnating compound is effected.
The yarn is now thoroughly impregnated with water-proofing heat-resisting compound which has been cured but which has not yet set so that the yarn is still very pliable andmay he therefore readily woven. The yarn is then woven into brake lining tape on a suitable loom and may be woven single or multiple ply of any combination desired properly to bind the various plies together. The tape is highly compacted in the .process of weaving but retains its-plasticity for several hours due to the mineral oil treatment. After the tape has been woven and removed from the loom, it is still plastic and is passed through a calender or the like to shape, compactnand smooth it as well as squeeze out the excess moisture.
The tape is then coiled and-arranged upon suitable trays by means of which it may be immersed in a second tank of compound similar to the first compound, if so desired. The second compound need not be of exactly the same density as the first, but it has similar waterproofing and heat-resisting characteristics. After the tape-has been allowed to remain in the second bath for several minutes to become thoroughly impregnated with the compound, it is lifted out and allowed to drain; The trays carry mg the impregnated tape are passed through an air draft where highly volatile constituents are evaporated. The trays hold ing the rolls of tape are then placed in a bake oven where they are heat treated for several hoursat a high temperature so that the compound throughout the tape is thoroughly'set. After the tape has been thoroughlyset, it is passed again through a calender which brings it to the exact thickness.
The front portion of Fig. 1 shows .the form of weave which may be used in the tape and therear portion of the figure shows the appearance of the tape after it has been impregnated, with the waterproof heat-reis a solid homogeneous mass.
tetanus sisting compound and pressure applied by means of the calenders.
During the process of weaving, the identity of the yarn is completely disguised with the result that the ori inal shape of the strip of asbestos felt paper used to make the yarn is destroyed and the asbestos fiber completely matted together with the compound and the wire throughout the entire length of the lining and, as the wires are woven with a very close mesh, the whole mass is firmly held in place. All the voids which are to be found in the ordinary typeof lining completely are filled up and the lining has the appearance of a solid piece of material, there being no visible appearance of woven mesh. This condition is further effected by the pressure to which the tape is subjected when it is passed through the sizing rolls or calcnders just after it'has been taken from the loom while still in plastic condition. The final structure is extremely compact and has the characteristics of a molded product rather than a woven product and The ultimate product obtained by the process herein described is a brake lining of great density and having no pores wherein moisture can. accumulate. As the yarn used in the weaving-o'f the product has been thoroughly impregnated with waterproof heat-resisting I compound, each individual asbestos fiber has been coated and made non-absorbent. This makes the finished product permanent in its characteristics and it cannot swell due to moisture, a feature found objectionable in the present type of brake lining.
In the process of producing brake lining 1 as herein described from asbestos felt pa-' per, the'binding material or starch used in the producing of the paper from asbestos pulp is mostly removed and is not appreciably present in the finished product. The starch or the like is partly separated from the asbestos paper when the latter passes through the yarn-formingmachine. The
starch comes to the surface of the yarn in fine scale so that, when the dry yarn is wound into cops before being impregnated, the same is sloughed ofi' in the winding operation. When. the yarn is'being treated with the impregnating compound and carried through the curing process in the hot water and mineral oil,the majority of the balance of starch in the asbestos paper is loosened and comes to the surface of the'treated yarn so that, as the strands of yarn are woven into the fabric on :the loom most of this residue of starch is squeezed out and is automatically scraped off v the Woven material with the surplus compound which the starch absorbs. p
Brake lining formed accordingto this process is of very great density and compactness and has a high coefficient of friction and .a low wear factor. After it has been riveted to a brake band or shoe, it cannotthe compact arrangement of the interlacing.
wires.
It is to be understood thatthe pro-impregnating process herein described and the resulting compacted brake lining fabric composed of a homogeneous mass of wire and asbestos material having the characteristics of a molded product are not limited to the particular stuff or form of material described but the scope of the invention is limited only as defined in the claims appended hereto. In particular, While it is preferred to use in the pre-impregnating process a yarn composed of wire and asbestos felted paper of the character descrlbed and the best results in the finished brake lining product are thereby achieved, still many of the advantages of the invention may be secured in connection with the manufacture of brake lining composed of yarn made of spun fiber asbestos material and other forms of asbestos yarn heretofore known.
I claim: I p
1. The process of making brake lining which comprises immersing asbestos yarn n an impregnating compound solution, curing the compound without setting the same, treating said yarn to malntain 1t in plastic condition, weaving'the same into a fabric, and subsequently treating the fabrlc to set the impregnating compound.
2. The process of making brake lining which comprises immersing asbestos yarn in an impregnating solution, curing the 1mpregnating compound without setting the same, treating said yarn to maintain it in plastic condition and weaving the same into fabric, treating .the fabric to set the compound, and subjecting the fabric to pressure to compact the same.
3. The process of making brake lining which comprises impregnating asbestos yarn with a Waterproof heat-resisting compound,
curing the compound without hardening treating said yarn to maintain it in plastic condition, weaving the yarn into tape and subsequently setting the compound and compacting the tape.
4. The process of making brake lining which comprises enclosing a wire in a strip of asbestos paper to form yarn, impregnating the yarn with waterproof heat-resisting compound, curing the compound without hardening, treating said yarn to maintain it in plastic condition, weaving the yarn into fabric and treating the fabric to compact the same and set the compound.
5. The process of making brake lining which comprises pre-impregnating a yarn composed of wire and asbestos material with a waterproof heat-resisting compound, treating the yarn to cure the compound without setting the same, treating said yarn with mineral oil to maintain it in plastic condition, Weaving the yarn, into tape, treating the tape to set the impregnating compound andsubjecting the tape to pressure to compact the same.
6. The process of making brake lining which comprises immersing asbestos yarn in a solution of a mixture of gilsonite, asphalt and oil, evaporating the more volatile constituents of the solvent, treating the yarn to cure the impregnating compound without setting the same, treating said yarn to maintain it in plastic condition, weaving the yarn into fabric and subsequently treating the yarn to set the compound and to compact the fabric.
7. The process of making brake lining which comprises pre-impregnating a yarn composed of wire and asbestos material in a solution of a waterproof heat-resisting compound, evaporating the solvents for such compound, treating the impregnated yarn to maintain it in plastic condition, weaving the yarn into tape, immersing the tape in a solution of a waterproof heat-resisting compound, baking the tape to evaporate the solvent and set the compound, and calendering the tape;
8. The process of making brake lining which comprises pre-impregnating a yarn composed of wire and asbestos material in a solution of a waterproof heat-resisting compound, evaporating the more volatile constituents of the solvent of such compound While preventing setting of the compound,
treating said compound to maintain it in plast c condition, weaving the yarn into tape, immersing the tape in a solution of a Waterproof heat-resisting compound, baking the tape completely to evaporate the solvents and set the compound.
9. The process of making brake lining which comprises pre-impregnating a yarn composed of wire and asbestos material in a solution of waterproof heat-resisting compound, evaporating the more volatile constituents of the solvent for said compound while preventing setting of the compound, immersing the impregnated tape in mineral oil to maintain the same in plastic condition, weaving the impregnated yarn into tape, immersing said tape in a solution of a Waterproof heat-resisting compound, baking the immersed tape completely to evaporate the solvent for the compound and to set the same, and subsequently calendering said tape.
10. The process of making brake lining which comprises pre-impregnating a yarn composed of wire and asbestos material in a solution of waterproof heat-resisting compound, evaporating the more volatile constituents of the solvent of such compound, immersing the impregnated yarn in hot the same by baking, and subsequently calen-' dering the baked tape.
11. The process of making brake lining which comprisespre-impregnating a yarn composed of wire and asbestos material 'in a solution of a waterproof heat-resisting compound, evaporating the more highly volatile constituents of the solvent, immersing the yarn in hot water to cure the compound tape.
and subsequently treating the fabric to set without hardening it, treating said compound to maintain it in plastic condition, weaving the impregnated yarn into tape, immersing the tape in a solution of a waterproof heat-resisting compound, thoroughly evaporating. the solvent of the compound, baking the tape to set said compound, and subsequently calendering the same.
12. A brake lining fabric comprising interwoven warp and weft strands, each strand being composed ,of an asbestos paper sheath folded lengthwise about a metal core and binding wires oppositely wound thereabout, said-asbestos being impregnated with heatresisting waterproof compound prior to being woven and the fabricbeing compacted to produce a smooth exterior surface.
13. The process of making brake lining which comprises enclosing a metal core in an asbestos strip to form yarn, impregnating the yarn with a solution of water-proofv heat-resisting compound, evaporatin the more volatile constituents of the so vent, curing the compound without settin same, weaving t e yarn into tape an su sequently treating the tape to set the impregnating compound and to compact the 14. The process of making brake liiiing which comprises impre nating an asbestos yarn with a solution 0 water-proof heat-V resisting compound, evaporating the more volatile constituents of the solvent, curing the impregnating compound without setting the same, weaving the yarn into a fabric the impregnated com ound.
15. The process 0 making brake lining which comprises impregnating asbestos yarn with a solution of water-proof heat-resisting compound, evaporating the more volatile constituents of thesolvent, curing the compound without setting the same, treatingjsaid yarn to maintain. it in plastic condition, weaving the yarn into fabric and subsequently treating the fabric to set the impregnating compound.
7 16. A brake lining fabric composed ,of warp and weft strands, each strand being tially the same length, and binding wires oppositely wound around said paper to bind the same to the core. i
17. A brake lining fabric composed of interwoven warp and weft strands, each strand being composed of metal core enclosed in a strip of asbestos paper substantially co-extensive in length therewith and being rolled lengthwise around the same, and a binding wire wrapped around said paper strip.
18. A brake lining fabric comprising interwoven warp and weft strands, each strand being composed of a metal core enclosed by a strip of asbestos paper substantially co-extensive in length therewith and rolled lengthwise about the same, and a binding wire wrapped about said aper, said paper being preimpregnated wit a. heat resisting water-proof compound andthe fabric being compacted to produce a smooth exterior surface.
19. A brake lining fabric comprising interwoven Warp and weft strands, each strand comprising a strip of'asbestos paper rolled lengthwise about a metal core of substan-' tially the same length, and binding wires the
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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US267563A US1819344A (en) | 1928-04-05 | 1928-04-05 | Brake lining and method of making the same |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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US267563A US1819344A (en) | 1928-04-05 | 1928-04-05 | Brake lining and method of making the same |
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US1819344A true US1819344A (en) | 1931-08-18 |
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US267563A Expired - Lifetime US1819344A (en) | 1928-04-05 | 1928-04-05 | Brake lining and method of making the same |
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2555261A (en) * | 1949-06-21 | 1951-05-29 | Russell Mfg Co | Brake lining |
US2555260A (en) * | 1949-06-21 | 1951-05-29 | Russell Mfg Co | Friction disk |
US2816415A (en) * | 1954-09-22 | 1957-12-17 | Bjorksten Res Lab Inc | Flame resistant material |
US3091017A (en) * | 1957-11-25 | 1963-05-28 | Congoleum Nairn Inc | Resilient fabrics |
US5242768A (en) * | 1991-04-01 | 1993-09-07 | Agency Of Industrial Science & Technology | Three-dimensional woven fabric for battery |
-
1928
- 1928-04-05 US US267563A patent/US1819344A/en not_active Expired - Lifetime
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2555261A (en) * | 1949-06-21 | 1951-05-29 | Russell Mfg Co | Brake lining |
US2555260A (en) * | 1949-06-21 | 1951-05-29 | Russell Mfg Co | Friction disk |
US2816415A (en) * | 1954-09-22 | 1957-12-17 | Bjorksten Res Lab Inc | Flame resistant material |
US3091017A (en) * | 1957-11-25 | 1963-05-28 | Congoleum Nairn Inc | Resilient fabrics |
US5242768A (en) * | 1991-04-01 | 1993-09-07 | Agency Of Industrial Science & Technology | Three-dimensional woven fabric for battery |
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