US2333354A - Electric fuse of cartridge type - Google Patents

Electric fuse of cartridge type Download PDF

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Publication number
US2333354A
US2333354A US379350A US37935041A US2333354A US 2333354 A US2333354 A US 2333354A US 379350 A US379350 A US 379350A US 37935041 A US37935041 A US 37935041A US 2333354 A US2333354 A US 2333354A
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Prior art keywords
sheath
metal
fuse
ferrules
coatings
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Expired - Lifetime
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US379350A
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Andersen Reginald Charles
Humphreys Ivor Evan
Dannenberg Kurt
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ELECTRIC TRANSMISSION Ltd
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ELECTRIC TRANSMISSION Ltd
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H85/00Protective devices in which the current flows through a part of fusible material and this current is interrupted by displacement of the fusible material when this current becomes excessive
    • H01H85/02Details
    • H01H85/04Fuses, i.e. expendable parts of the protective device, e.g. cartridges
    • H01H85/041Fuses, i.e. expendable parts of the protective device, e.g. cartridges characterised by the type
    • H01H85/044General constructions or structure of low voltage fuses, i.e. below 1000 V, or of fuses where the applicable voltage is not specified
    • H01H85/045General constructions or structure of low voltage fuses, i.e. below 1000 V, or of fuses where the applicable voltage is not specified cartridge type
    • H01H85/0458General constructions or structure of low voltage fuses, i.e. below 1000 V, or of fuses where the applicable voltage is not specified cartridge type with ferrule type end contacts
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H85/00Protective devices in which the current flows through a part of fusible material and this current is interrupted by displacement of the fusible material when this current becomes excessive
    • H01H85/0013Means for preventing damage, e.g. by ambient influences to the fuse
    • H01H85/0021Means for preventing damage, e.g. by ambient influences to the fuse water or dustproof devices
    • H01H85/003Means for preventing damage, e.g. by ambient influences to the fuse water or dustproof devices casings for the fusible element

Definitions

  • This invention has reference to powder iilled cartridge fuses for continuous oil immersion in service.
  • a diiiiculty experienced hitherto in connection with powder filled fuses so immersed has been that arising from 'oil creepage into the interior of the cartridge fuse sheath by way of the passages between the sheath and the ferrules or the like at the ends of the sheath, it being understood that the oil in which the fuse is immersed has, in addition to its creeping properties, a pressure head in relation to the interior of the fuse.
  • Such oil even in minute quantity, is absorbed by the powder and Vaporizes upon heating of the fuse.
  • the fuse i. e., circuitinter-1 ruption thereby, the oil vapor is ignited and explodes the fuse, such explosion occurring even ii only a minute quantity of oil seeped into the fuse.
  • the primary object of the present invention is the provision of a powder filled cartridge fuse for continuous oil immersion wherein it is impos-n sible ior oilv to enter the fuse, the invention even safeguarding against the human element in making the seals between the fuse sheath and the ferrules or the like.
  • a double seal is shields the said other seal, comprises a metallicy coating making direct sealing union with the material of the sheath.
  • the metallic coating is formed by a metallic building-up process, for example, electrolytic deposition, spraying or the like effecting union of the said metal with the sheath without the interposition of cement.
  • the said other joint is a compression joint which is shielded from deteriorating influences internally of the fuse by the metallic seal, either directly covering the compressed member or providing a seal betweenthe sheath and a metal cap, ferrule or the like covering the said compression member.
  • any minute quantity of oil which may'succe'ed in creeping past the metal coating will be so reduced in pressure that the lcompression joint is able tooffer a perfect barrier to it, the said quantity being too small to affect the compressed member adversely even if it be of a material less capable to withstand service pressure than standard material.
  • the above fuses according to the invention are liquid-tight and in order to avoid the human element and to ensure this quality of tightness even when the fuses are subjected to high external pressure, the degree of tightness is carried to air-tightness by the location of compression joints or seals between the sheath and the vferrules or end caps.
  • air is unable to enter the interior of the sheath.
  • the sheaths may be annularly ygrooved and the ferrules or caps and/or the metal applied by eletrolysis or the like extend into the grooves in order to produce a labyrinth path for creeping fluid.
  • Suitable metallisation processes include platinising, dipping in molten metal, reduction, hot or vaporization processes, amalgamating and the like, the metal being in timately deposited on or otherwise intimately joined to the sheaths, or to the sheaths and to the ferrules, without the interposition of cement as previously stated.
  • compression joint or seal means a gasket, washer or the like of oilresistant material which is continually compressed by metal terminal members at the ends of the sheath.
  • Fig. l is a side elevation, partly in section, of ⁇
  • Figs. 2 to 4 show, in section, the ends of sheaths to which end caps or ferrules of different conhollow of the supportare lled with arc-extinguishing powder 6'.
  • the support is provided at its ends with split connecting sleeves as 6 which are a push t onto bosses 'I secured, by means of anges 8 on the bosses, between the caps 2 and washers 9, preferably of rubber conventionally treated to be oil resistant, which are ⁇ ously deiined.
  • the sheaths are grooved at Il so that the metal III enters them at I2, thus extending the surface of the joint between the metal and the sheath in labyrinth fashion.
  • the boss I carries a cylinder in which is an indicator pin I3 and the closed end of the cap 2 has a central opening I4 through which the pin I3 can pass when the fuse blows.
  • the opening I4 is,ihowever, normally closed by a thin metal disc I5 sealed to the cap 2 by solder and more particularly by the m'etal I0, the application of said metal being discontinued at I6 to permit of the easy passage of the pin through the disc I5. It is not essential that the metal I0 completely cover the outer surfaces of the caps 2 but in cases where, for example, a metal to metal seal is required, as between the cap and 1 the disc I5, the metal is continued as illustrated.
  • Fig. 3 the outer end of the sheath 2I is reduced, a band of metal 22 is applied to the ,reduced part by electrolytic or other process as previously defined, the band is screw-threaded and a screw cap 23 applied thereto.
  • a washer 24 is located between the end of the sheath and the closed end of thecap and the cap is sealed to the band 22 by solder 25 and a layer of metal 28 applied by electrolysis or the like.
  • the metal y26 is applied in order to lessen the likelihood of faults produced by the human element in applying the solder. Alternatively, soldering may be dispensed with.
  • Fig. 4 the end oi.' the sheath 32 is annularly grooved at 33, a metal ferrule 34 is shrunk onto the end of the sheath and the ferrule is swaged' at 35 to ll the grooves 33.
  • the outer end of the ferrule 34 extends slightly beyond the plane end of the sheath 32 and a disc 36 is slipped into this projecting portion and the disc and the ferrule are sealed together and the ferrule is sealed to the sheath by rings 31 and 38, respectively, applied by electrolysis or the like in accordance with the invention. If desired, the disc may be soldered to the ferrule before the ring 31 is applied.
  • a compression joint or seal is indicated at 39, the joint comprising a washer compressed between the end of the sheath and the end of the disc 36.
  • insulating, refractory material of which the sheaths are made may be of any suitable kind.
  • ceramic materials, fabric materials and materials having a hard paper base may be of any suitable kind.
  • a cartridge fuse for continuous oil immersion in service comprising an insulating sheath, a fusible element in said sheath, an arc-extinguishing powder filling in said sheath, contact ferrules comprising metal coatings at the ends of the sheath, said coatings making direct sealing union with the material of the sheath, and compression seals between the sheath and the metal coatings, said compression seals being covered by the said ferrules.
  • a cartridge fuse for continuous oil immersion in service comprising an insulating sheath, a fusible element in said sheath, an arc-extinguishing powder filling in said sheath, contact ferrules in the form of metal coatings at the ends of the sheath, said coatings making direct sealing union with the material of the sheath, and compression seals between the sheath and the metalcoatings, said compression seals being covered by the said coatings.
  • a cartridge fuse for continuous oil immersion in service comprising an insulating sheath, a fusible element ln said sheath, an arc-extinguishing powder filling in said sheath, contact ferrules at the ends of the sheath, a metal coating between each ferrule and the adjacent part of the sheath, said coating making direct sealing union with the material of the sheath and the ferrule, and compression seals between the sheath and the contact ferrules, said compression seals being covered by the said ferrules.
  • a cartridge fuse for continuous oil immersion in service comprising an insulating sheath, a fusible element in said sheath, an arc-extinguishing powder lling in said sheath, contact ferrules comprising metal coatings at the ends of the sheath, said coatings making direct sealing union with the material of the sheath, and compression seals between the ends of the sheath and the adjacent parts of said metal coatings, said compression seals being covered by the said ferrules.
  • a cartridge fuse for continuous oil immersion in service comprising an insulating sheath, a fusible element in said sheath, an arc-extinguishing powder filling in said sheath, contact ferrules in the form of metal coatings at the ends of the sheath, said coatings making direct sealing union with the material Iof the sheath, and compression seals between the ends of the sheath and the adjacent parts of said metal coatings, said compression seal being covered by the said coatings.
  • a cartridge fuse for continuous oil immersion in service comprising an insulating sheath, a fusible element in said sheath, an arc-extinguishing powder filling in said sheath, contact ferrules at the ends of the sheath, a metal coating between each ferrule and the adjacent part of the sheath, said coating making direct sealing union with the material of the sheath and fthe ferrule, and compression seals between the ends of the sheath and the adjacent parts of said contact ferrules, said compression seals being cov- 9.
  • said ferrules comprising metal bands applied as such to the ends of the sheath, and closures sealed to the outer ends of the bands by intimately applied metal.
  • metallic coatings in the form ⁇ of bands on the ends of said sheath, said coatings making direct sealing union With the material of the sheath, metal caps fitting said coatings, said coatings and said caps being screw-threaded in complementary manner, and a seal uniting each coating and its cap formed by metal intimately applied to the coating and 'to the cap.
  • a cartridge fuse according to claim 2 said sheath having grooves near its ends and said grooves being filled by said metal coatings whereby said grooves and said llin'g metalprovide labyrinth paths which act as additional barriers to the ingress of oil or atmosphere.
  • a cartridge fuse according to claim 3 said sheath having grooves near its ends and said grooves being lled by said metal coatings whereby said grooves and said filling metal provide labyrinth paths which act as additional barriers to the ingress of oil or atmosphere.
  • a cartridge fuse for continuous oil immersion in service comprising an insulating sheath, a fusible element in said sheath, an arc-extinguishing powder iilling in said sheath, contact ferrules comprising metal coatings at the ends of the sheath, said coatings making direct sealing union with the material of the sheath, compression seals between the extremities of the sheath and the contact ferrules, said compression seals being covered by the said ferrules, an

Description

Nov. 2, 1943. R C, ANDERSEN ETAL 2,333,354
ELECTRIC FUSE OF CARTRIDGE TYPE Filed Feb. 17. 1941 Patented Nom 2, 19743 2,333,354 ELECTRIC FSE F CARTRIDGE TYPE Reginald Charles Andersen.
Ivor Evan Humphreys, and Kurt Dannenberg, Islington, London, England, assignors to Electric Transmission Limited,
Etruria,
Stoke-on-Trent,
Staffordshire, England, a British company Application February 17, 1941, Serial No. 379,350 In Great Britain March 6, 1940 (Cl. o- 121) 13 Claims.
This invention has reference to powder iilled cartridge fuses for continuous oil immersion in service.
A diiiiculty experienced hitherto in connection with powder filled fuses so immersed has been that arising from 'oil creepage into the interior of the cartridge fuse sheath by way of the passages between the sheath and the ferrules or the like at the ends of the sheath, it being understood that the oil in which the fuse is immersed has, in addition to its creeping properties, a pressure head in relation to the interior of the fuse. Such oil, even in minute quantity, is absorbed by the powder and Vaporizes upon heating of the fuse. Upon operation of the fuse, i. e., circuitinter-1 ruption thereby, the oil vapor is ignited and explodes the fuse, such explosion occurring even ii only a minute quantity of oil seeped into the fuse.
The primary object of the present invention is the provision of a powder filled cartridge fuse for continuous oil immersion wherein it is impos-n sible ior oilv to enter the fuse, the invention even safeguarding against the human element in making the seals between the fuse sheath and the ferrules or the like.
According to the invention, a double seal is shields the said other seal, comprises a metallicy coating making direct sealing union with the material of the sheath. The metallic coating is formed by a metallic building-up process, for example, electrolytic deposition, spraying or the like effecting union of the said metal with the sheath without the interposition of cement. The said other joint is a compression joint which is shielded from deteriorating influences internally of the fuse by the metallic seal, either directly covering the compressed member or providing a seal betweenthe sheath and a metal cap, ferrule or the like covering the said compression member.
When the seal according to the invention is in use, any minute quantity of oil which may'succe'ed in creeping past the metal coating will be so reduced in pressure that the lcompression joint is able tooffer a perfect barrier to it, the said quantity being too small to affect the compressed member adversely even if it be of a material less capable to withstand service pressure than standard material.
The above fuses according to the invention are liquid-tight and in order to avoid the human element and to ensure this quality of tightness even when the fuses are subjected to high external pressure, the degree of tightness is carried to air-tightness by the location of compression joints or seals between the sheath and the vferrules or end caps. Thus in the event of a minute quantity ot liquid creepingalong the sheath in side the metal applied by electrolysis or the like the compression joints act as barriers effectively preventing the ingress of fluid into the interior of the sheath, such fluid as does, however, creep as i'ar as the joints being insuicient'in quantity se-= riously to impair the said joints. Similarly air is unable to enter the interior of the sheath.
The sheaths may be annularly ygrooved and the ferrules or caps and/or the metal applied by eletrolysis or the like extend into the grooves in order to produce a labyrinth path for creeping fluid.
Suitable metallisation processes, in addition to electrolytic and spraying above mentioned spem ciiically, include platinising, dipping in molten metal, reduction, hot or vaporization processes, amalgamating and the like, the metal being in timately deposited on or otherwise intimately joined to the sheaths, or to the sheaths and to the ferrules, without the interposition of cement as previously stated.
The expression compression joint or seal used herein means a gasket, washer or the like of oilresistant material which is continually compressed by metal terminal members at the ends of the sheath.
Fuses in accordance with the invention will now be described with reference to the accompanying drawing wherein:
Fig. l is a side elevation, partly in section, of`
a high rupturing capacity fuse having ferrules applied electrolytically or by other means according to the invention;
Figs. 2 to 4 show, in section, the ends of sheaths to which end caps or ferrules of different conhollow of the supportare lled with arc-extinguishing powder 6'. The support is provided at its ends with split connecting sleeves as 6 which are a push t onto bosses 'I secured, by means of anges 8 on the bosses, between the caps 2 and washers 9, preferably of rubber conventionally treated to be oil resistant, which are `ously deiined. The sheaths are grooved at Il so that the metal III enters them at I2, thus extending the surface of the joint between the metal and the sheath in labyrinth fashion.
The boss I carries a cylinder in which is an indicator pin I3 and the closed end of the cap 2 has a central opening I4 through which the pin I3 can pass when the fuse blows. The opening I4 is,ihowever, normally closed by a thin metal disc I5 sealed to the cap 2 by solder and more particularly by the m'etal I0, the application of said metal being discontinued at I6 to permit of the easy passage of the pin through the disc I5. It is not essential that the metal I0 completely cover the outer surfaces of the caps 2 but in cases where, for example, a metal to metal seal is required, as between the cap and 1 the disc I5, the metal is continued as illustrated.
This prevents oil or air from creeping into the fuse between the disc and the cap thereby preventing faults which might arise if these two members were simply soldered or brazed together.
In Fig. 2 a flanged screw plug I1 interposed into the end of the sheath I8 compresses the washer I9 whilst a band of metal 20 applied by electrolysis or the like seals the flange to the sheath and'provides the ferrule.
In Fig. 3 the outer end of the sheath 2I is reduced, a band of metal 22 is applied to the ,reduced part by electrolytic or other process as previously defined, the band is screw-threaded and a screw cap 23 applied thereto. A washer 24 is located between the end of the sheath and the closed end of thecap and the cap is sealed to the band 22 by solder 25 and a layer of metal 28 applied by electrolysis or the like. The metal y26 is applied in order to lessen the likelihood of faults produced by the human element in applying the solder. Alternatively, soldering may be dispensed with.
In Fig. 4 the end oi.' the sheath 32 is annularly grooved at 33, a metal ferrule 34 is shrunk onto the end of the sheath and the ferrule is swaged' at 35 to ll the grooves 33.
The outer end of the ferrule 34 extends slightly beyond the plane end of the sheath 32 and a disc 36 is slipped into this projecting portion and the disc and the ferrule are sealed together and the ferrule is sealed to the sheath by rings 31 and 38, respectively, applied by electrolysis or the like in accordance with the invention. If desired, the disc may be soldered to the ferrule before the ring 31 is applied. A compression joint or seal is indicated at 39, the joint comprising a washer compressed between the end of the sheath and the end of the disc 36.
'Ihe insulating, refractory material of which the sheaths are made may be of any suitable kind. For example, ceramic materials, fabric materials and materials having a hard paper base.
What We claim is:
l. A cartridge fuse for continuous oil immersion in service comprising an insulating sheath, a fusible element in said sheath, an arc-extinguishing powder filling in said sheath, contact ferrules comprising metal coatings at the ends of the sheath, said coatings making direct sealing union with the material of the sheath, and compression seals between the sheath and the metal coatings, said compression seals being covered by the said ferrules.
2. A cartridge fuse for continuous oil immersion in service comprising an insulating sheath, a fusible element in said sheath, an arc-extinguishing powder filling in said sheath, contact ferrules in the form of metal coatings at the ends of the sheath, said coatings making direct sealing union with the material of the sheath, and compression seals between the sheath and the metalcoatings, said compression seals being covered by the said coatings.
3. A cartridge fuse for continuous oil immersion in service comprising an insulating sheath, a fusible element ln said sheath, an arc-extinguishing powder filling in said sheath, contact ferrules at the ends of the sheath, a metal coating between each ferrule and the adjacent part of the sheath, said coating making direct sealing union with the material of the sheath and the ferrule, and compression seals between the sheath and the contact ferrules, said compression seals being covered by the said ferrules.
4. A cartridge fuse for continuous oil immersion in service comprising an insulating sheath, a fusible element in said sheath, an arc-extinguishing powder lling in said sheath, contact ferrules comprising metal coatings at the ends of the sheath, said coatings making direct sealing union with the material of the sheath, and compression seals between the ends of the sheath and the adjacent parts of said metal coatings, said compression seals being covered by the said ferrules. n
5. A cartridge fuse for continuous oil immersion in service comprising an insulating sheath, a fusible element in said sheath, an arc-extinguishing powder filling in said sheath, contact ferrules in the form of metal coatings at the ends of the sheath, said coatings making direct sealing union with the material Iof the sheath, and compression seals between the ends of the sheath and the adjacent parts of said metal coatings, said compression seal being covered by the said coatings.
6. A cartridge fuse for continuous oil immersion in service comprising an insulating sheath, a fusible element in said sheath, an arc-extinguishing powder filling in said sheath, contact ferrules at the ends of the sheath, a metal coating between each ferrule and the adjacent part of the sheath, said coating making direct sealing union with the material of the sheath and fthe ferrule, and compression seals between the ends of the sheath and the adjacent parts of said contact ferrules, said compression seals being cov- 9. A cartridge fuse according to claim 3, said ferrules comprising metal bands applied as such to the ends of the sheath, and closures sealed to the outer ends of the bands by intimately applied metal.
10. A cartridge fuse according to claim 3,
metallic coatings in the form `of bands on the ends of said sheath, said coatings making direct sealing union With the material of the sheath, metal caps fitting said coatings, said coatings and said caps being screw-threaded in complementary manner, and a seal uniting each coating and its cap formed by metal intimately applied to the coating and 'to the cap.
1l. A cartridge fuse according to claim 2, said sheath having grooves near its ends and said grooves being filled by said metal coatings whereby said grooves and said llin'g metalprovide labyrinth paths which act as additional barriers to the ingress of oil or atmosphere.
l2. A cartridge fuse according to claim 3, said sheath having grooves near its ends and said grooves being lled by said metal coatings whereby said grooves and said filling metal provide labyrinth paths which act as additional barriers to the ingress of oil or atmosphere.
13. A cartridge fuse for continuous oil immersion in service comprising an insulating sheath, a fusible element in said sheath, an arc-extinguishing powder iilling in said sheath, contact ferrules comprising metal coatings at the ends of the sheath, said coatings making direct sealing union with the material of the sheath, compression seals between the extremities of the sheath and the contact ferrules, said compression seals being covered by the said ferrules, an
indicator pin, a container for said pin, said con with these said elements and being absent at the,
point where the pin, in operating, pierces the cover.
REGINALD CHARLES ANDERSEN. IVOR EVAN HUMPHREYS. KURT DANNENBERG.
US379350A 1940-03-06 1941-02-17 Electric fuse of cartridge type Expired - Lifetime US2333354A (en)

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Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2417268A (en) * 1944-06-03 1947-03-11 Gen Electric Indicating means for thermal circuit interrupters
US2953665A (en) * 1958-01-03 1960-09-20 Electric Transmission Ltd Seals
US3333336A (en) * 1965-10-13 1967-08-01 Westinghouse Electric Corp Method of making a fuse by securing the terminals by magnetic forming
US3480901A (en) * 1966-10-14 1969-11-25 English Electric Co Ltd Fuse unit having an operation indicator
US3723930A (en) * 1972-02-10 1973-03-27 Gen Electric Oil immersible current limiting fuse assembly
US3846727A (en) * 1973-07-09 1974-11-05 Amalga Corp Current limiting device
US4208787A (en) * 1976-12-30 1980-06-24 Westinghouse Electric Corp. Process for making a submersible fuse
US4323874A (en) * 1980-07-28 1982-04-06 Rte Corporation Blown fuse indicator
US5367281A (en) * 1993-12-30 1994-11-22 Eaton Corporation Striker pin device for an electric fuse
US20090021339A1 (en) * 2005-06-07 2009-01-22 Siba Fuses Gmbh & Co. Kg High-voltage fuse
US9490067B2 (en) 2013-11-08 2016-11-08 Cooper Technologies Company Joining dissimilar materials using an epoxy resin composition

Cited By (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2417268A (en) * 1944-06-03 1947-03-11 Gen Electric Indicating means for thermal circuit interrupters
US2953665A (en) * 1958-01-03 1960-09-20 Electric Transmission Ltd Seals
US3333336A (en) * 1965-10-13 1967-08-01 Westinghouse Electric Corp Method of making a fuse by securing the terminals by magnetic forming
US3480901A (en) * 1966-10-14 1969-11-25 English Electric Co Ltd Fuse unit having an operation indicator
US3723930A (en) * 1972-02-10 1973-03-27 Gen Electric Oil immersible current limiting fuse assembly
US3846727A (en) * 1973-07-09 1974-11-05 Amalga Corp Current limiting device
US4208787A (en) * 1976-12-30 1980-06-24 Westinghouse Electric Corp. Process for making a submersible fuse
US4323874A (en) * 1980-07-28 1982-04-06 Rte Corporation Blown fuse indicator
US5367281A (en) * 1993-12-30 1994-11-22 Eaton Corporation Striker pin device for an electric fuse
AU678632B2 (en) * 1993-12-30 1997-06-05 Eaton Corporation Striker pin device for an electric fuse
US20090021339A1 (en) * 2005-06-07 2009-01-22 Siba Fuses Gmbh & Co. Kg High-voltage fuse
US9490067B2 (en) 2013-11-08 2016-11-08 Cooper Technologies Company Joining dissimilar materials using an epoxy resin composition
US9761374B2 (en) 2013-11-08 2017-09-12 Cooper Technologies Company Joining dissimilar materials using an epoxy resin composition

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