Thermal Properties | Metric | English | Comments |
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Thermal Conductivity | 53.6 W/m-K | 372 BTU-in/hr-ft²-°F | |
Eagle Brass 725 Copper Nickel Tin, 1/2 Hard Alloy C725 is a moderate strength, low conductivity alloy with excellent bare solderability and corrosion resistance. Applications include electronic parts, springs, connectors and wire wrap termina.. |
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Thermal Conductivity | 53.6 W/m-K | 372 BTU-in/hr-ft²-°F | |
Eagle Brass 725 Copper Nickel Tin, 1/4 Hard Alloy C725 is a moderate strength, low conductivity alloy with excellent bare solderability and corrosion resistance. Applications include electronic parts, springs, connectors and wire wrap termina.. |
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Thermal Conductivity | 53.6 W/m-K | 372 BTU-in/hr-ft²-°F | |
Eagle Brass 725 Copper Nickel Tin, Annealed Alloy C725 is a moderate strength, low conductivity alloy with excellent bare solderability and corrosion resistance. Applications include electronic parts, springs, connectors and wire wrap termina.. |
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Thermal Conductivity | 53.6 W/m-K | 372 BTU-in/hr-ft²-°F | |
Eagle Brass 725 Copper Nickel Tin, Extra Hard Alloy C725 is a moderate strength, low conductivity alloy with excellent bare solderability and corrosion resistance. Applications include electronic parts, springs, connectors and wire wrap termina.. |
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Thermal Conductivity | 53.6 W/m-K | 372 BTU-in/hr-ft²-°F | |
Eagle Brass 725 Copper Nickel Tin, Extra Spring Alloy C725 is a moderate strength, low conductivity alloy with excellent bare solderability and corrosion resistance. Applications include electronic parts, springs, connectors and wire wrap termina.. |
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Thermal Conductivity | 53.6 W/m-K | 372 BTU-in/hr-ft²-°F | |
Eagle Brass 725 Copper Nickel Tin, Hard Alloy C725 is a moderate strength, low conductivity alloy with excellent bare solderability and corrosion resistance. Applications include electronic parts, springs, connectors and wire wrap termina.. |
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Thermal Conductivity | 53.6 W/m-K | 372 BTU-in/hr-ft²-°F | |
Eagle Brass 725 Copper Nickel Tin, Spring Alloy C725 is a moderate strength, low conductivity alloy with excellent bare solderability and corrosion resistance. Applications include electronic parts, springs, connectors and wire wrap termina.. |
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Thermal Conductivity | 53.6 W/m-K | 372 BTU-in/hr-ft²-°F | |
CLAL-MSX NICLAFOR® 1000 TB Quenched Drawn Copper Alloy Finished parts can be produced with: reduction in sections, high mechanical properties even at high temperature, high spring properties, high conductivity, good resistance to corrosion, low permeabi.. |
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Thermal Conductivity | 53.6 W/m-K | 372 BTU-in/hr-ft²-°F | |
CLAL-MSX NICLAFOR® 1000 TB Quenched Rolled Copper Alloy Finished parts can be produced with: reduction in sections, high mechanical properties even at high temperature, high spring properties, high conductivity, good resistance to corrosion, low permeabi.. |
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Thermal Conductivity | 53.6 W/m-K | 372 BTU-in/hr-ft²-°F | |
CLAL-MSX NICLAFOR® 1000 TD1 Quenched/Cold Rolled, Drawn Copper Alloy Finished parts can be produced with: reduction in sections, high mechanical properties even at high temperature, high spring properties, high conductivity, good resistance to corrosion, low permeabi.. |
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Thermal Conductivity | 53.6 W/m-K | 372 BTU-in/hr-ft²-°F | |
CLAL-MSX NICLAFOR® 1000 TD1 Quenched/Cold Rolled, Rolled Copper Alloy Finished parts can be produced with: reduction in sections, high mechanical properties even at high temperature, high spring properties, high conductivity, good resistance to corrosion, low permeabi.. |
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Thermal Conductivity | 53.6 W/m-K | 372 BTU-in/hr-ft²-°F | |
CLAL-MSX NICLAFOR® 1000 TD2 Quenched/Cold Rolled, Drawn Copper Alloy Finished parts can be produced with: reduction in sections, high mechanical properties even at high temperature, high spring properties, high conductivity, good resistance to corrosion, low permeabi.. |
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Thermal Conductivity | 53.6 W/m-K | 372 BTU-in/hr-ft²-°F | |
CLAL-MSX NICLAFOR® 1000 TD2 Quenched/Cold Rolled, Rolled Copper Alloy Finished parts can be produced with: reduction in sections, high mechanical properties even at high temperature, high spring properties, high conductivity, good resistance to corrosion, low permeabi.. |
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Thermal Conductivity | 53.6 W/m-K | 372 BTU-in/hr-ft²-°F | |
CLAL-MSX NICLAFOR® 1000 TD3 Quenched/Cold Rolled, Drawn Copper Alloy Finished parts can be produced with: reduction in sections, high mechanical properties even at high temperature, high spring properties, high conductivity, good resistance to corrosion, low permeabi.. |
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Thermal Conductivity | 53.6 W/m-K | 372 BTU-in/hr-ft²-°F | |
CLAL-MSX NICLAFOR® 1000 TD3 Quenched/Cold Rolled, Rolled Copper Alloy Finished parts can be produced with: reduction in sections, high mechanical properties even at high temperature, high spring properties, high conductivity, good resistance to corrosion, low permeabi.. |
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Thermal Conductivity | 53.6 W/m-K | 372 BTU-in/hr-ft²-°F | |
CLAL-MSX NICLAFOR® 1000 TD4 Quenched/Cold Rolled, Drawn Copper Alloy Finished parts can be produced with: reduction in sections, high mechanical properties even at high temperature, high spring properties, high conductivity, good resistance to corrosion, low permeabi.. |
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Thermal Conductivity | 53.6 W/m-K | 372 BTU-in/hr-ft²-°F | |
CLAL-MSX NICLAFOR® 1000 TD4 Quenched/Cold Rolled, Rolled Copper Alloy Finished parts can be produced with: reduction in sections, high mechanical properties even at high temperature, high spring properties, high conductivity, good resistance to corrosion, low permeabi.. |
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Thermal Conductivity | 53.6 W/m-K | 372 BTU-in/hr-ft²-°F | |
CLAL-MSX NICLAFOR® 1000 TDX Quenched/Cold Rolled, Drawn Copper Alloy Finished parts can be produced with: reduction in sections, high mechanical properties even at high temperature, high spring properties, high conductivity, good resistance to corrosion, low permeabi.. |
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Thermal Conductivity | 53.6 W/m-K | 372 BTU-in/hr-ft²-°F | |
CLAL-MSX NICLAFOR® 1000 TDX Quenched/Cold Rolled, Rolled Copper Alloy Finished parts can be produced with: reduction in sections, high mechanical properties even at high temperature, high spring properties, high conductivity, good resistance to corrosion, low permeabi.. |
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Thermal Conductivity | 53.6 W/m-K | 372 BTU-in/hr-ft²-°F | |
CLAL-MSX NICLAFOR® 1000 TF Quenched/Precipitation Heat Treated, Drawn Copper Alloy Finished parts can be produced with: reduction in sections, high mechanical properties even at high temperature, high spring properties, high conductivity, good resistance to corrosion, low permeabi.. |
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Thermal Conductivity | 53.6 W/m-K | 372 BTU-in/hr-ft²-°F | |
CLAL-MSX NICLAFOR® 1000 TF Quenched/Precipitation Heat Treated, Rolled Copper Alloy Finished parts can be produced with: reduction in sections, high mechanical properties even at high temperature, high spring properties, high conductivity, good resistance to corrosion, low permeabi.. |
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Thermal Conductivity | 53.6 W/m-K | 372 BTU-in/hr-ft²-°F | |
CLAL-MSX NICLAFOR® 1000 TH1 Quenched/Precipitation Heat Treated, Drawn Copper Alloy Finished parts can be produced with: reduction in sections, high mechanical properties even at high temperature, high spring properties, high conductivity, good resistance to corrosion, low permeabi.. |
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Thermal Conductivity | 53.6 W/m-K | 372 BTU-in/hr-ft²-°F | |
CLAL-MSX NICLAFOR® 1000 TH1 Quenched/Precipitation Heat Treated, Rolled Copper Alloy Finished parts can be produced with: reduction in sections, high mechanical properties even at high temperature, high spring properties, high conductivity, good resistance to corrosion, low permeabi.. |
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Thermal Conductivity | 53.6 W/m-K | 372 BTU-in/hr-ft²-°F | |
CLAL-MSX NICLAFOR® 1000 TH2 Quenched/Cold Rolled/Precipitation Heat Treated, Rolled Copper Alloy Finished parts can be produced with: reduction in sections, high mechanical properties even at high temperature, high spring properties, high conductivity, good resistance to corrosion, low permeabi.. |
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Thermal Conductivity | 53.6 W/m-K | 372 BTU-in/hr-ft²-°F | |
CLAL-MSX NICLAFOR® 1000 TH2 Quenched/Precipitation Heat Treated, Drawn Copper Alloy Finished parts can be produced with: reduction in sections, high mechanical properties even at high temperature, high spring properties, high conductivity, good resistance to corrosion, low permeabi.. |
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Thermal Conductivity | 53.6 W/m-K | 372 BTU-in/hr-ft²-°F | |
CLAL-MSX NICLAFOR® 1000 TH4 Quenched/Cold Rolled/Precipitation Heat Treated, Rolled Copper Alloy Finished parts can be produced with: reduction in sections, high mechanical properties even at high temperature, high spring properties, high conductivity, good resistance to corrosion, low permeabi.. |
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Thermal Conductivity | 53.6 W/m-K | 372 BTU-in/hr-ft²-°F | |
CLAL-MSX NICLAFOR® 1000 TH4 Quenched/Precipitation Heat Treated, Drawn Copper Alloy Finished parts can be produced with: reduction in sections, high mechanical properties even at high temperature, high spring properties, high conductivity, good resistance to corrosion, low permeabi.. |
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Thermal Conductivity | 53.6 W/m-K | 372 BTU-in/hr-ft²-°F | |
CLAL-MSX NICLAFOR® 1000 TH3 Quenched/Cold Rolled/Precipitation Heat Treated, Rolled Copper Alloy Finished parts can be produced with: reduction in sections, high mechanical properties even at high temperature, high spring properties, high conductivity, good resistance to corrosion, low permeabi.. |
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Thermal Conductivity | 53.6 W/m-K | 372 BTU-in/hr-ft²-°F | |
CLAL-MSX NICLAFOR® 1000 THX Quenched/Cold Rolled/Precipitation Heat Treated, Rolled Copper Alloy Finished parts can be produced with: reduction in sections, high mechanical properties even at high temperature, high spring properties, high conductivity, good resistance to corrosion, low permeabi.. |
|||
Thermal Conductivity | 53.6 W/m-K | 372 BTU-in/hr-ft²-°F | |
CLAL-MSX NICLAFOR® 1000 THX Quenched/Precipitation Heat Treated, Drawn Copper Alloy Finished parts can be produced with: reduction in sections, high mechanical properties even at high temperature, high spring properties, high conductivity, good resistance to corrosion, low permeabi.. |