US2095537A - Coating material - Google Patents

Coating material Download PDF

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US2095537A
US2095537A US739375A US73937534A US2095537A US 2095537 A US2095537 A US 2095537A US 739375 A US739375 A US 739375A US 73937534 A US73937534 A US 73937534A US 2095537 A US2095537 A US 2095537A
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Prior art keywords
strands
coating material
coating
nozzle
excess
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US739375A
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Carl M Underwood
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AT&T Corp
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Western Electric Co Inc
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    • CCHEMISTRY; METALLURGY
    • C23COATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; CHEMICAL SURFACE TREATMENT; DIFFUSION TREATMENT OF METALLIC MATERIAL; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL; INHIBITING CORROSION OF METALLIC MATERIAL OR INCRUSTATION IN GENERAL
    • C23CCOATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; SURFACE TREATMENT OF METALLIC MATERIAL BY DIFFUSION INTO THE SURFACE, BY CHEMICAL CONVERSION OR SUBSTITUTION; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL
    • C23C2/00Hot-dipping or immersion processes for applying the coating material in the molten state without affecting the shape; Apparatus therefor
    • C23C2/34Hot-dipping or immersion processes for applying the coating material in the molten state without affecting the shape; Apparatus therefor characterised by the shape of the material to be treated
    • C23C2/36Elongated material
    • C23C2/38Wires; Tubes
    • CCHEMISTRY; METALLURGY
    • C23COATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; CHEMICAL SURFACE TREATMENT; DIFFUSION TREATMENT OF METALLIC MATERIAL; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL; INHIBITING CORROSION OF METALLIC MATERIAL OR INCRUSTATION IN GENERAL
    • C23CCOATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; SURFACE TREATMENT OF METALLIC MATERIAL BY DIFFUSION INTO THE SURFACE, BY CHEMICAL CONVERSION OR SUBSTITUTION; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL
    • C23C2/00Hot-dipping or immersion processes for applying the coating material in the molten state without affecting the shape; Apparatus therefor
    • C23C2/14Removing excess of molten coatings; Controlling or regulating the coating thickness
    • YGENERAL 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
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T29/00Metal working
    • Y10T29/49Method of mechanical manufacture
    • Y10T29/49826Assembling or joining
    • Y10T29/49885Assembling or joining with coating before or during assembling

Definitions

  • This invention relates to coating material and more particularly toan improved method of and apparatus for applying a coating of tin or other metal to a multisided article or uniting a plurality of strands by tinning to form a bundle or tape and to the product produced thereby.
  • Objects of the invention are to providean improved method of and apparatus for applying a thin coating to strand material or the like and to provide an improved composite stranded article.
  • a plurality of strands are advanced in a side by .side arrangement through a bath of coating solution, then through a wiping die, after which they are advanced through a nozzle where they receive the final wiping by a gas, such as superheated steam.
  • FIG. l is a diagrammatic elevational view. of a strand coating apparatus embodying the invention andwhich maybe used in practicing the invention; i
  • Fig. 2 is a sectional view of the wiping mechaignates a supply reel upon which is wound a plurality of strands ii in parallel formation. Toillustrate one embodiment oi the invention, the
  • strands of material may be alternately straight and corrugated. These strands may be wound upon the supply reel so that each convolution will constitute a layer of material upon the supply reel, or if desired, separate reels may be employed for each strand.
  • the strands of material are .advanced over a roller l2 through a fluxing bath ii, the purpose oi. which is to remove impurities from the surface of the strands and prepare them to receive the coating material.
  • the strands pass over a roller l5 to a coating bath l6 consisting of a liquid coating material, such as molten tin or other metal, to be applied to the strands.
  • the coating material is contained in a tank il which may be heated by any suitable means (not shown) andisprovided with a lateral member 20 under which the strands pass during their immersion in the bath.
  • From the coating bath the strands, carrying an excess of coating material, next pass to the wiping mechanism 2
  • cooling device comprises a slanting trough 23 through which the coating strands pass in one direction as a cooling liquid such as water passes in the opposite direction for the purposeof freezing the coating material.
  • a cooling liquid such as water
  • the portion 28 is separate fromthe door 26 and has its ends slidably mounted in downwardly projecting guides 29, only one of which is shown in the drawing, the guides being integral with or rigidly supported on the door 26.
  • the lower edge oi. the door 26 and the upper edge of the portion ⁇ ! have elongated recesses to form a wiping die 30, the surfaces of which are formed or hard material to withstand wear during the advancement of the coated strands therethrough.
  • fastening latches 33 carried by the door 26 and having links 34 arranged to engage lugs 35 carried by the portion 28.
  • the opening of the die may be varied, for example, to take up for wear upon the hardened surfaces by rotating adjusting screws 36, one of which is placed upon each side of the die opening and carried by the lugs 35.
  • the wall of the casing 25 opposite the die 30 is ,apertured to receive a nozzle 40 which is flanged at its outer end.
  • the flange of the nozzle 40 is provided with slots or apertures at PDDOSIte ends thereof for receiving screws or the like, the purpose of which is to secure the nozzle in the aperture of the casing 25.
  • Within the nozzle 40 a passageway is. formed which tapers outwardly from the throat ll of the nozzle to the inner edge 42 thereof, The throat ll of the nozzle is slightly larger than the coated strands passing therethrough so as to bring about a satisfactory wiping of the coating material by the force or gas from the conduit 43 through a gas chamber 44 and thence through the passageway of the nozzle 40.
  • the chamber 44 is positioned as shown in Fig. 2 adjacent the throat 4
  • the adjustable member 48 is hollow, the hollow portion of which, from the and adjacent the throat 4
  • the adjustable member 48 is held in place by screws or the like and the position of its inner end may be varied with respect to the throat 4
  • a purpose of this adjustment is to obtain a condition in which no cold air is drawn through the member 48 and in which no substantial amount of the gaseous wiping medium is lost by outward flow therethrough.
  • the coated strands after passing through the. nozzle 4
  • the impurities are removed therefrom as the strands pass through the fluxing bath l3, after which the strands are submerged in the bath of a coating solution.
  • the strands After the strands pass from the bath it, they are drawn through the die 30, where a large quantity of the coating solution remaining upon the strands is removed therefrom, together with any foreign particles which might happen to be in the bath l6.
  • One form of gas which may be utilized in th nozzle 40 for the final wiping operation may be superheated steam which is passed through the nozzle at a pressure greater than atmospheric pressure.
  • the steam in entering the chamber 44 from the conduit 43 completely surrounds the coated material as it passes through the nozzle, and as the direction of flow of the steam is opposite that of the coated material, the excess coating material is forced therefrom.
  • the excess coating material remaining on the surfaces of the strands after they pass through the die 30 is thereby removed and broken up into particles which are separated from. the steam by aooassv gravity in the casing 25 and returned to the bath It.
  • the thickness of the coating material remaining on the strands may be controlled by varying either the speed of the wire or the pressure of the steam or both, the higherspeed tending to produce a heavier coating, while a higher steam pressure or temperature tends to produce a lighter coating. .By viewing Fig. 3, it will be observed that the passageway in the nozzle 4
  • may also serve to center the strands as they pass through the nozzle to prevent the strands or the coating material thereupon from contacting with the inner surfaces of the nozzle 4. for the adjustable member 48.
  • the simultaneous coating of a plurality of strands not only eliminates the coating of each strand singly but secures the strands together in a desired unit form so that they may be cut into any desired lengths without separating from each other.
  • a cable I is shown which is formed of a plurality of strands to illustrate another embodiment of the present invention. It is not believed necessary to show additional figures in the drawing to illustrate the formation of the nozzle and die for receiving a plurality of strands in cable form as illustrated in Fig. 4 for the reason that the construction will be the same as shown in Fig. 2, with the exception that the passageways through the die and the nozzle will be circular in cross-section instead of elongated as.
  • the cable may be cut into desired lengths and the strands forming the cable will be firmly held against separation from each other by the coating material.
  • an apparatus for moving articles means for applying an excess-of liquid coating to a longitudinally moving article, a liquid and gas separating chamber through which the article passes, a door swingably'mountedupon said chamber and constituting a part thereof, a scraping die mounted in said door, and surrounding the article while advancing for removing a portion of the excess liquid coating therefrom, an expansion nozzle mounted in said chamber and surrounding the article, said door being movable away from said nozzle to afford communication with said nozzle during the preliminary threading of the article therethrough, and means to supply gas under high pressure to the nozzle for removing the remainder of the excess liquid coating from the article.
  • means for applying an excess of liquid coating to a plurality of contacting longitudinally moving strands means for removing the excess liquid coating from the ing material to solidify it upon the strands, and means positioned to engage the coated strands prior to their passage through said cooling means for insuring proper relative positioning of the strands.
  • a method of forming a composite strand which comprises passing a plurality of strands through molten coating material, removing excess coating material, and cooling the coated strands to harden the coating material with spaced portions of adjacent strands in contact to unite the strands.
  • a method of forming a composite coated strand which comprises assembling a plurality of strands side by side with contacting points at spaced intervals, passing the assembly through a molten bath of coating metal, removing excess coating metal, and cooling the coated strands to unite the strands and form a composite strand.
  • a method of forming a composite strand which comprises assembling alternate straight and undulating strands side by side to contact at spaced intervals, passing the assembled strands through a bath of coating material, removing excess coating material, and hardening the remaining coating material to form a composite strand.
  • a method of forming a composite strand which comprises passing a plurality of strands side by side and contacting at spaced intervals through a bath of coating material, removing a portion of the excess coating material mechanically, and subsequently removing the remainder of the excess coating-material by passing a gas longitudinally of the strands at a high velocity for a substantial distance.
  • a method ofiorming a composite strand which comprises assembling a plurality of strands into a composite strand, applying to the composite strand an amount of coating material in excess of that desired in the finished product, removing a portion of the excess coating material mechanically, and subsequently removing the remainder of the excess coating material by passing a gas longitudinally of the articles at a'high velocityfor a substantial distance.
  • a method of forming a composite strand which comprises assembling a plurality of strands to form a composite strand, applying thereto an amount of coating material in excess oi. that desired in the finished product, removing a portion of the excess coating material mechanically, and subsequently subjecting the coated composite strand to a heated gaseous medium to render the coating uniform.
  • a method of forming a composite strand which comprises assembling a plurality of strands to form a composite strand, applying thereto an amount or coating material in excess of that desired in the finished product, removing a portion of the excess coating material mechanically, subsequently subjecting the coated composite strand to a heated gaseous medium to render the coating uniform, and cooling the coated strand to unite the individual strands into a unitary composite strand.

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  • Chemical & Material Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Engineering & Computer Science (AREA)
  • Materials Engineering (AREA)
  • Mechanical Engineering (AREA)
  • Metallurgy (AREA)
  • Organic Chemistry (AREA)
  • Application Of Or Painting With Fluid Materials (AREA)
  • Ropes Or Cables (AREA)

Description

Patented Oct. 12, 1937 V 2.095; 7 COATING MATERIAL Carl M. Underwood, Newton Center, Mesa, as-
signorto -Weatern Electric Company, Incorporyatelii, New York, N. Y... a corporation or New or Application August 11, 1934, Serial No. 739,375 9 Claims. (oral-12.2)
. This invention relates to coating material and more particularly toan improved method of and apparatus for applying a coating of tin or other metal to a multisided article or uniting a plurality of strands by tinning to form a bundle or tape and to the product produced thereby.
Objects of the invention are to providean improved method of and apparatus for applying a thin coating to strand material or the like and to provide an improved composite stranded article.
In one embodiment of the present invention, a plurality of strands are advanced in a side by .side arrangement through a bath of coating solution, then through a wiping die, after which they are advanced through a nozzle where they receive the final wiping by a gas, such as superheated steam.
from the following description taken in connection with the accompanying drawing, in which Fig. l is a diagrammatic elevational view. of a strand coating apparatus embodying the invention andwhich maybe used in practicing the invention; i
Fig. 2 is a sectional view of the wiping mechaignates a supply reel upon which is wound a plurality of strands ii in parallel formation. Toillustrate one embodiment oi the invention, the
. strands of material may be alternately straight and corrugated. These strands may be wound upon the supply reel so that each convolution will constitute a layer of material upon the supply reel, or if desired, separate reels may be employed for each strand.
From the reel I ii the strands of material are .advanced over a roller l2 through a fluxing bath ii, the purpose oi. which is to remove impurities from the surface of the strands and prepare them to receive the coating material. From the bath II the strands pass over a roller l5 to a coating bath l6 consisting of a liquid coating material, such as molten tin or other metal, to be applied to the strands. The coating material is contained in a tank il which may be heated by any suitable means (not shown) andisprovided with a lateral member 20 under which the strands pass during their immersion in the bath. From the coating bath the strands, carrying an excess of coating material, next pass to the wiping mechanism 2| where the excess coating material is removed, after which they may pass through a suitable cooling device as illustrated at 22. The
cooling device comprises a slanting trough 23 through which the coating strands pass in one direction as a cooling liquid such as water passes in the opposite direction for the purposeof freezing the coating material. Prior to the freezing of the coating material on the strands it is desired to insureproper positioning oi. the strands relative to each other. This is brought about by passing the coated strands between rolls 24, one of which or both may be mounted for adjustment (Fig. 1). Furthermore, one or both of the rolls f '24 may becooled by the cooling liquid. The invention will'he' more fully understood The wiping mechanism 2| -shown indetail in Fig. 2 is mounted at the edge of the tank i1 and comprises a casing 25 having a door 28 hinged at 21, the lower portion 28 of which extends beneath the upper'surface of the bath l6. The portion 28 is separate fromthe door 26 and has its ends slidably mounted in downwardly projecting guides 29, only one of which is shown in the drawing, the guides being integral with or rigidly supported on the door 26. The lower edge oi. the door 26 and the upper edge of the portion}! have elongated recesses to form a wiping die 30, the surfaces of which are formed or hard material to withstand wear during the advancement of the coated strands therethrough. At each side of the die opening are positioned fastening latches 33 carried by the door 26 and having links 34 arranged to engage lugs 35 carried by the portion 28. The opening of the die may be varied, for example, to take up for wear upon the hardened surfaces by rotating adjusting screws 36, one of which is placed upon each side of the die opening and carried by the lugs 35.
The wall of the casing 25 opposite the die 30 is ,apertured to receive a nozzle 40 which is flanged at its outer end. The flange of the nozzle 40 is provided with slots or apertures at PDDOSIte ends thereof for receiving screws or the like, the purpose of which is to secure the nozzle in the aperture of the casing 25. Within the nozzle 40 a passageway is. formed which tapers outwardly from the throat ll of the nozzle to the inner edge 42 thereof, The throat ll of the nozzle is slightly larger than the coated strands passing therethrough so as to bring about a satisfactory wiping of the coating material by the force or gas from the conduit 43 through a gas chamber 44 and thence through the passageway of the nozzle 40. Reference is made to application Serial No. 608,041, filed April 28, 1932, for a more complete discussion of the operation of this type of apparatus for wiping coated strands and to application Serial No. 673,857, filed June 1, 1933, for modifications which may be desirable when using zinc or other high melting point metal for the coating material.
The chamber 44 is positioned as shown in Fig. 2 adjacent the throat 4| of the nozzle surrounding an elongated funnel-shaped adjustablemember 4| which is movably disposed in an aperture 4! of the nozzle and has its inner portion II tapering inwardly toward the path of the coated strands to a point closely adjacent the throat 4| of the nozzle. The adjustable member 48 is hollow, the hollow portion of which, from the and adjacent the throat 4| of the nozzle for a short distance therefrom, being slightly larger than the coated strands so that the coating material on the strands will not contact with the walls thereof, and the remaining hollow portion being greater in contour as illustrated in Fig. 2.
The adjustable member 48 is held in place by screws or the like and the position of its inner end may be varied with respect to the throat 4| of the nozzle by placing spacing washers between the adjacent outer surfacesof the nozzle 40 and the flange of the adjustable member 48. A purpose of this adjustment is to obtain a condition in which no cold air is drawn through the member 48 and in which no substantial amount of the gaseous wiping medium is lost by outward flow therethrough.
The coated strands, after passing through the. nozzle 4|] and through the cooling unit 22, pass over rollers Si and 52 and are wound uponthe takeup reel 53 as shown in Fig. 1. During the advancement of the strands from the supply reel ii to the takeup reel 53, the impurities are removed therefrom as the strands pass through the fluxing bath l3, after which the strands are submerged in the bath of a coating solution. After the strands pass from the bath it, they are drawn through the die 30, where a large quantity of the coating solution remaining upon the strands is removed therefrom, together with any foreign particles which might happen to be in the bath l6. There still remains, however, a greater quantity of coating material upon the strands than is desired in the finished product and the surplus material is removed to provide an even coating upon the individual strandsby subjecting them to the action of a suitable gas as they pass through the nozzle 40. I
One form of gas which may be utilized in th nozzle 40 for the final wiping operation may be superheated steam which is passed through the nozzle at a pressure greater than atmospheric pressure. The steam in entering the chamber 44 from the conduit 43 completely surrounds the coated material as it passes through the nozzle, and as the direction of flow of the steam is opposite that of the coated material, the excess coating material is forced therefrom.
From the throat 4| of the nozzle to the inner end 42 thereof, the velocity of the steam increases due to its expansion so that the coated strands are subjected to a wiping action bythe movement of the steam at a high velocity longitudinally thereof for a substantial distance.
The excess coating material remaining on the surfaces of the strands after they pass through the die 30 is thereby removed and broken up into particles which are separated from. the steam by aooassv gravity in the casing 25 and returned to the bath It. The thickness of the coating material remaining on the strands may be controlled by varying either the speed of the wire or the pressure of the steam or both, the higherspeed tending to produce a heavier coating, while a higher steam pressure or temperature tends to produce a lighter coating. .By viewing Fig. 3, it will be observed that the passageway in the nozzle 4| from the throat 4| to the inner end 42 tapers outwardly at each side of the coated strands, as they pass through the nozzle, as well as above and below the coated strands. The die 3| may also serve to center the strands as they pass through the nozzle to prevent the strands or the coating material thereupon from contacting with the inner surfaces of the nozzle 4. for the adjustable member 48.
The simultaneous coating of a plurality of strands not only eliminates the coating of each strand singly but secures the strands together in a desired unit form so that they may be cut into any desired lengths without separating from each other.
In Fig. 4 a cable I is shown which is formed of a plurality of strands to illustrate another embodiment of the present invention. It is not believed necessary to show additional figures in the drawing to illustrate the formation of the nozzle and die for receiving a plurality of strands in cable form as illustrated in Fig. 4 for the reason that the construction will be the same as shown in Fig. 2, with the exception that the passageways through the die and the nozzle will be circular in cross-section instead of elongated as.
illustrated in Fig, 3. Thepoating operation will be the same as described in the foregoing for the strands After the cable I has been coated and the coating material cooled, the cable may be cut into desired lengths and the strands forming the cable will be firmly held against separation from each other by the coating material.
While the invention has been described with particular reference to the coating of a plurality of strands with tin, using superheated steam as a pressure gas, it will be understood-that the form of the invention illustrated may be capable of coating a wide variety of materials having various cross-sectional contours. that coating'materlals other than tin maybe employed, other gases may be usedin place of superheated Whatisclaimedis':
1. -In an apparatus for moving articles, means for applying an excess-of liquid coating to a longitudinally moving article, a liquid and gas separating chamber through which the article passes, a door swingably'mountedupon said chamber and constituting a part thereof, a scraping die mounted in said door, and surrounding the article while advancing for removing a portion of the excess liquid coating therefrom, an expansion nozzle mounted in said chamber and surrounding the article, said door being movable away from said nozzle to afford communication with said nozzle during the preliminary threading of the article therethrough, and means to supply gas under high pressure to the nozzle for removing the remainder of the excess liquid coating from the article.
2. In an apparatus for coating a plurality of strands simultaneously, means for applying an excess of liquid coating to a plurality of contacting longitudinally moving strands, means for removing the excess liquid coating from the ing material to solidify it upon the strands, and means positioned to engage the coated strands prior to their passage through said cooling means for insuring proper relative positioning of the strands.
3. A method of forming a composite strand which comprises passing a plurality of strands through molten coating material, removing excess coating material, and cooling the coated strands to harden the coating material with spaced portions of adjacent strands in contact to unite the strands.
4. A method of forming a composite coated strand which comprises assembling a plurality of strands side by side with contacting points at spaced intervals, passing the assembly through a molten bath of coating metal, removing excess coating metal, and cooling the coated strands to unite the strands and form a composite strand.
5. A method of forming a composite strand which comprises assembling alternate straight and undulating strands side by side to contact at spaced intervals, passing the assembled strands through a bath of coating material, removing excess coating material, and hardening the remaining coating material to form a composite strand.
6. A method of forming a composite strand which comprises passing a plurality of strands side by side and contacting at spaced intervals through a bath of coating material, removing a portion of the excess coating material mechanically, and subsequently removing the remainder of the excess coating-material by passing a gas longitudinally of the strands at a high velocity for a substantial distance.
7. A method ofiorming a composite strand which comprises assembling a plurality of strands into a composite strand, applying to the composite strand an amount of coating material in excess of that desired in the finished product, removing a portion of the excess coating material mechanically, and subsequently removing the remainder of the excess coating material by passing a gas longitudinally of the articles at a'high velocityfor a substantial distance.
8. A method of forming a composite strand which comprises assembling a plurality of strands to form a composite strand, applying thereto an amount of coating material in excess oi. that desired in the finished product, removing a portion of the excess coating material mechanically, and subsequently subjecting the coated composite strand to a heated gaseous medium to render the coating uniform.
9. A method of forming a composite strand which comprises assembling a plurality of strands to form a composite strand, applying thereto an amount or coating material in excess of that desired in the finished product, removing a portion of the excess coating material mechanically, subsequently subjecting the coated composite strand to a heated gaseous medium to render the coating uniform, and cooling the coated strand to unite the individual strands into a unitary composite strand.
CARL M. UNDERWOOD.
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4287238A (en) * 1980-04-11 1981-09-01 Bethlehem Steel Corporation Protective atmosphere gas wiping apparatus and method of using

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4287238A (en) * 1980-04-11 1981-09-01 Bethlehem Steel Corporation Protective atmosphere gas wiping apparatus and method of using

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