MANUFACTURER OF CERAMIC
COATED WIRE
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MANUFACTURER OF CERAMIC
COATED WIRE |
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Technical Specifications:
Index:
- BASIC DESCRIPTION
- TEMPERATURE RANGE
- CONDUCTOR TYPES
- SIZES AVAILABLE
- FLEXIBILITY AND ADHERENCE
- COATING THICKNESS
- DIELECTRIC RATING
- THERMAL SHOCK
- TENSILE STRENGTH
- ELECTRICAL RESISTANCE
- POROSITY
- FLAMMABILITY
- RADIATION RESISTANCE
- CHEMICAL RESISTANCE
- MIGRATION
- SERVICE LIFE
- FEET PER POUND
- WINDING INSTRUCTIONS
- TERMINATION METHODS
- STORAGE
- WARRANTY
CERAMAWIRE HT Wire is a high temperature magnet wire insulated with a fully cured (1400° - 1500° F) vitreous enamel film*
that is firmly bonded to the wire conductor and that assumes the same flexibility and temperature coefficient as the base wire. It
is suitable for coil winding and lead wire applications in aerospace, nuclear, steam, chemical and other high temperature
applications.
*Proprietary Formulation-450° F to +1000° F continuous operation; up to 1500° F for short periods of time.
NOTE: HT Wire has been successfully used in applications on a continuous basis above 1000° F. Please consult with the Sales
Department if your application includes temperatures above 1000° F.
FLEXIBILITY AND ADHERENCE
Coating is warranted to not crack when wound on a form 7X diameter of wire.
NOTE: Wire typically passes a 5X mandrel test and is inspected at time of manufacture by a twist test performed by wrapping
the wire tightly around itself to insure adhesion and lack of cracking. Wire is also snap and scratch tested to insure adhesion.
COATING THICKNESS
0003" - .0006" (increase in diameter), depending on size.NOTE: Thicker coatings are possible to meet special needs, although
the greater the coating thickness, the more prone the coating is to "powdering".
DIELECTRIC RATING
150 volts D.C. for wire diameters up to .008" (#32 wire); 200 volts D.C. for larger diameter wires.
THERMAL SHOCK
No appreciable degradation from cryogenic to ambient and/or high temperature to ambient cycling.
TENSILE STRENGTH
Same as base wire.
ELECTRICAL RESISTANCE
Electrical resistance of Kulgrid HT Wire is 26.9 ohms/circ mil ft at 500 O F and 42.3 ohms at 1000° F. All Nickel HT Wire has an
electrical resistance of 138 ohms/circ mil ft at 500°F and 228 ohms at 1000°F.
Initial resistance of Kulgrid HT Wire is slightly higher than copper but will become less than copper after a period of operation at
higher temperatures.
POROSITY
Coating is porous and will absorb moisture if left exposed to the atmosphere. Wire can be baked out at 125°C for 12 hours on a
metal spool.
FLAMMABILITY
Wire will not burn when exposed to flame. At extremely high temperatures (e.g. 2000°F) HT Wire may start to melt but will not
burn.
RADIATION RESISTANCE
Various tests at Oak Ridge Laboratory, etc. have indicated that HT Wire has a high resistance to radiation and is suitable for
nuclear application.
NOTE: Because of the critical nature of such use, the following test results are being listed as a guide only. Each application
should be thoroughly and independently tested to determine suitability:
- .1012 NVT exposure resistance to thermal neutrons, fast neutrons and gammaphotons.
- .108 Reentgen of Gammaray resistance (4.6 x 108 Rads in latest 1992 test).
- .1015 Fast Neutrons/centimeter2 resistance.
CHEMICAL RESISTANCE
Wire is inert to solvents, oils, organic materials, thinners and water. Molten sodium hydroxide will attack and strip coating from
the wire.
MIGRATION
Kulgrid HT Wire is subject to nickel migration at temperatures above 600°F. The affect is negligible on larger sizes but will be
noticeable on wire diameters smaller than .006" (#34 AWG) after prolonged use.
All Nickel HT Wire is unaffected by migration.
SERVICE LIFE
Both Kulgrid and All Nickel HT Wire have a life expectancy greater than 2500 hours at 1000°F and above. Service life
significantly increases with a decrease in operating temperature.
FEET PER POUND
Same as standard "single build" magnet wire.
WINDING INSTRUCTIONS
Exercise care when unspooling HT Wire. Do not run wire over spool flanges or metal rollers or guides. Use teflon or nylon guides
and rollers to avoid damaging the coating. Use a light tension when winding coils.
Handle wire with surgical gloves. This will avoid moisture and body oils being transferred to the wire which will reduce dielectric
strength. It will also prevent injury because of the abrasive surface of the wire.
TERMINATION METHODS
Silver solder termination may be accomplished without stripping as the ceramic will mix with most fluxes. All flux must be
removed before sealing or exposing the wire to high temperature.
Termination may also be accomplished by spot welding after the ceramic coating is stripped. Stripping can be obtained by
mechanical methods or by immersion in molten sodium hydroxide at 600°F to 800°F for 15 to 30 seconds followed by a water
quench (the ceramic coating is then loosened and can be wiped off). NOTE: If a mechanical method is used with Kulgrid HT
Wire, care must be exercised not to strip the nickel from the copper to insure a good weld.
A third method of termination is to use crimp type connectors.
STORAGE
Store HT Wire in a closed container with a desiccant to minimize moisture absorption.
WARRANTY
HT Wire will be replaced free of charge if it fails to meet the above specifications.
CERAMAWIRE makes no warranties either express or implied as to the suitability of HT Wire for a particular application or use.
Buyer and user must determine the suitability for his intended use and assume all risk and liability in connection therewith. Each
application must be judged for suitability of performance by the user.
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