Thermal Properties | Metric | English | Comments |
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Thermal Conductivity | 347.6 W/m-K | 2412 BTU-in/hr-ft²-°F | |
Eagle Brass 19210 XP-10 Copper Iron, 1/2 Hard 19210 has higher strengths than most copper alloys but thanks to its composition and processing it retains formability and conductivity that other copper alloys lose. Typical uses include cooling f.. |
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Thermal Conductivity | 347.6 W/m-K | 2412 BTU-in/hr-ft²-°F | |
Eagle Brass 19210 XP-10 Copper Iron, 1/4 Hard 19210 has higher strengths than most copper alloys but thanks to its composition and processing it retains formability and conductivity that other copper alloys lose. Typical uses include cooling f.. |
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Thermal Conductivity | 347.6 W/m-K | 2412 BTU-in/hr-ft²-°F | |
Eagle Brass 19210 XP-10 Copper Iron, 3/4 Hard 19210 has higher strengths than most copper alloys but thanks to its composition and processing it retains formability and conductivity that other copper alloys lose. Typical uses include cooling f.. |
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Thermal Conductivity | 347.6 W/m-K | 2412 BTU-in/hr-ft²-°F | |
Eagle Brass 19210 XP-10 Copper Iron, Annealed 19210 has higher strengths than most copper alloys but thanks to its composition and processing it retains formability and conductivity that other copper alloys lose. Typical uses include cooling f.. |
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Thermal Conductivity | 347.6 W/m-K | 2412 BTU-in/hr-ft²-°F | |
Eagle Brass 19210 XP-10 Copper Iron, Extra Hard 19210 has higher strengths than most copper alloys but thanks to its composition and processing it retains formability and conductivity that other copper alloys lose. Typical uses include cooling f.. |
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Thermal Conductivity | 347.6 W/m-K | 2412 BTU-in/hr-ft²-°F | |
Eagle Brass 19210 XP-10 Copper Iron, Extra Spring 19210 has higher strengths than most copper alloys but thanks to its composition and processing it retains formability and conductivity that other copper alloys lose. Typical uses include cooling f.. |
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Thermal Conductivity | 347.6 W/m-K | 2412 BTU-in/hr-ft²-°F | |
Eagle Brass 19210 XP-10 Copper Iron, Hard 19210 has higher strengths than most copper alloys but thanks to its composition and processing it retains formability and conductivity that other copper alloys lose. Typical uses include cooling f.. |
|||
Thermal Conductivity | 347.6 W/m-K | 2412 BTU-in/hr-ft²-°F | |
Eagle Brass 19210 XP-10 Copper Iron, Spring 19210 has higher strengths than most copper alloys but thanks to its composition and processing it retains formability and conductivity that other copper alloys lose. Typical uses include cooling f.. |