Thermal Properties | Metric | English | Comments |
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CTE, linear | 17.6 µm/m-°C | 9.80 µin/in-°F | |
IBC Advanced Alloys C17510 Beryllium Copper Alloy Plate, Temper A(TB00) C17510 - Beryllium Copper mold alloys have hardnesses comparable to tool steel, but with superior thermal conductivity. Beryllium copper plate, block, bar and rounds -- upset forged and heat treated.. |
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CTE, linear | 17.6 µm/m-°C | 9.80 µin/in-°F | |
IBC Advanced Alloys C17510 Beryllium Copper Alloy Rounds, Temper AT(TF00) C17510 - Beryllium Copper mold alloys have hardnesses comparable to tool steel, but with superior thermal conductivity. Beryllium copper plate, block, bar and rounds -- upset forged and heat treated.. |
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CTE, linear | 17.6 µm/m-°C | 9.80 µin/in-°F | |
Schmolz + Bickenbach MoldMAX® SC Copper Alloy Description: Brush Wellman’s MoldMAX® SC is a high conductivity copper mold alloy with good strength. MoldMAX® SC is used as blow mold cavities, injection mold cores and cavities and hot .. |
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CTE, linear | 17.6 µm/m-°C @Temperature 20.0 - 300 °C |
9.80 µin/in-°F @Temperature 68.0 - 572 °F |
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Eagle Brass 110 EPT COPPER, 1/2 Hard Alloy 110, also known as electrolytic tough pitch (ETP) copper, is commonly used in electric current carrying applications. 110 Copper is 99.9% pure copper with an electrical conductivity rating of .. |
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CTE, linear | 17.6 µm/m-°C @Temperature 20.0 - 300 °C |
9.80 µin/in-°F @Temperature 68.0 - 572 °F |
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Eagle Brass 110 EPT COPPER, 1/4 Hard Alloy 110, also known as electrolytic tough pitch (ETP) copper, is commonly used in electric current carrying applications. 110 Copper is 99.9% pure copper with an electrical conductivity rating of .. |
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CTE, linear | 17.6 µm/m-°C @Temperature 20.0 - 300 °C |
9.80 µin/in-°F @Temperature 68.0 - 572 °F |
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Eagle Brass 110 EPT COPPER, Annealed Alloy 110, also known as electrolytic tough pitch (ETP) copper, is commonly used in electric current carrying applications. 110 Copper is 99.9% pure copper with an electrical conductivity rating of .. |
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CTE, linear | 17.6 µm/m-°C @Temperature 20.0 - 300 °C |
9.80 µin/in-°F @Temperature 68.0 - 572 °F |
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Eagle Brass 110 EPT COPPER, Extra Hard Alloy 110, also known as electrolytic tough pitch (ETP) copper, is commonly used in electric current carrying applications. 110 Copper is 99.9% pure copper with an electrical conductivity rating of .. |
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CTE, linear | 17.6 µm/m-°C @Temperature 20.0 - 300 °C |
9.80 µin/in-°F @Temperature 68.0 - 572 °F |
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Eagle Brass 110 EPT COPPER, Spring Alloy 110, also known as electrolytic tough pitch (ETP) copper, is commonly used in electric current carrying applications. 110 Copper is 99.9% pure copper with an electrical conductivity rating of .. |
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CTE, linear | 17.6 µm/m-°C @Temperature 20.0 - 300 °C |
9.80 µin/in-°F @Temperature 68.0 - 572 °F |
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Eagle Brass 151 ZHC® COPPER, 1/2 Hard Alloy C151 has excellent solderability, high conductivity, and good strength. C151 has superior high temperature softening resistance compared to pure copper C110.Applications can be found in high c.. |
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CTE, linear | 17.6 µm/m-°C @Temperature 20.0 - 300 °C |
9.80 µin/in-°F @Temperature 68.0 - 572 °F |
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Eagle Brass 151 ZHC® COPPER, 1/4 Hard Alloy C151 has excellent solderability, high conductivity, and good strength. C151 has superior high temperature softening resistance compared to pure copper C110.Applications can be found in high c.. |
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CTE, linear | 17.6 µm/m-°C @Temperature 20.0 - 300 °C |
9.80 µin/in-°F @Temperature 68.0 - 572 °F |
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Eagle Brass 151 ZHC® COPPER, Annealed Alloy C151 has excellent solderability, high conductivity, and good strength. C151 has superior high temperature softening resistance compared to pure copper C110.Applications can be found in high c.. |
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CTE, linear | 17.6 µm/m-°C @Temperature 20.0 - 300 °C |
9.80 µin/in-°F @Temperature 68.0 - 572 °F |
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Eagle Brass 151 ZHC® COPPER, Extra Hard Alloy C151 has excellent solderability, high conductivity, and good strength. C151 has superior high temperature softening resistance compared to pure copper C110.Applications can be found in high c.. |
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CTE, linear | 17.6 µm/m-°C @Temperature 20.0 - 300 °C |
9.80 µin/in-°F @Temperature 68.0 - 572 °F |
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Eagle Brass 151 ZHC® COPPER, Hard Alloy C151 has excellent solderability, high conductivity, and good strength. C151 has superior high temperature softening resistance compared to pure copper C110.Applications can be found in high c.. |
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CTE, linear | 17.6 µm/m-°C @Temperature 20.0 - 300 °C |
9.80 µin/in-°F @Temperature 68.0 - 572 °F |
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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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CTE, linear | 17.6 µm/m-°C @Temperature 20.0 - 300 °C |
9.80 µin/in-°F @Temperature 68.0 - 572 °F |
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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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CTE, linear | 17.6 µm/m-°C @Temperature 20.0 - 300 °C |
9.80 µin/in-°F @Temperature 68.0 - 572 °F |
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Eagle Brass 194 HSM® Copper, Annealed High Strength Modified Copper Alloy C194 is a first generation high performance alloy used worldwide. C194 combines good electrical conductivity with high tensile strength, good solderability and pl.. |
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CTE, linear | 17.6 µm/m-°C @Temperature 20.0 - 300 °C |
9.80 µin/in-°F @Temperature 68.0 - 572 °F |
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Eagle Brass 194 HSM® Copper, Extra Hard High Strength Modified Copper Alloy C194 is a first generation high performance alloy used worldwide. C194 combines good electrical conductivity with high tensile strength, good solderability and pl.. |
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CTE, linear | 17.6 µm/m-°C @Temperature 20.0 - 300 °C |
9.80 µin/in-°F @Temperature 68.0 - 572 °F |
|
Eagle Brass 194 HSM® Copper, Extra Spring High Strength Modified Copper Alloy C194 is a first generation high performance alloy used worldwide. C194 combines good electrical conductivity with high tensile strength, good solderability and pl.. |
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CTE, linear | 17.6 µm/m-°C @Temperature 20.0 - 300 °C |
9.80 µin/in-°F @Temperature 68.0 - 572 °F |
|
Eagle Brass 194 HSM® Copper, Hard High Strength Modified Copper Alloy C194 is a first generation high performance alloy used worldwide. C194 combines good electrical conductivity with high tensile strength, good solderability and pl.. |
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CTE, linear | 17.6 µm/m-°C @Temperature 20.0 - 300 °C |
9.80 µin/in-°F @Temperature 68.0 - 572 °F |
|
Eagle Brass 194 HSM® Copper, Spring High Strength Modified Copper Alloy C194 is a first generation high performance alloy used worldwide. C194 combines good electrical conductivity with high tensile strength, good solderability and pl.. |
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CTE, linear | 17.6 µm/m-°C @Temperature 100 °C |
9.78 µin/in-°F @Temperature 212 °F |
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CMW® 3 Copper Alloy CMW® 3 material is a high strength, high conductivity copper base alloy. CMW® 3 material is heat treatable. Optimum mechanical and physical properties of CMW® 3 material are developed by heat tre.. |
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CTE, linear | 17.6 µm/m-°C @Temperature 20.0 - 300 °C |
9.80 µin/in-°F @Temperature 68.0 - 572 °F |
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Eagle Brass 101 OFE COPPER (Certified), 1/2 Hard Alloy 101 is known as Oxygen-Free Electronic (OFE). It reaches a minimum of 101% IACS conductivity rating. It is the most expensive out of the 101- 110 group because of its higher purity.Information.. |
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CTE, linear | 17.6 µm/m-°C @Temperature 20.0 - 300 °C |
9.80 µin/in-°F @Temperature 68.0 - 572 °F |
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Eagle Brass 101 OFE COPPER (Certified), 3/4 Hard Alloy 101 is known as Oxygen-Free Electronic (OFE). It reaches a minimum of 101% IACS conductivity rating. It is the most expensive out of the 101- 110 group because of its higher purity.Information.. |
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CTE, linear | 17.6 µm/m-°C @Temperature 20.0 - 300 °C |
9.80 µin/in-°F @Temperature 68.0 - 572 °F |
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Eagle Brass 101 OFE COPPER (Certified), Annealed Alloy 101 is known as Oxygen-Free Electronic (OFE). It reaches a minimum of 101% IACS conductivity rating. It is the most expensive out of the 101- 110 group because of its higher purity.Information.. |
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CTE, linear | 17.6 µm/m-°C @Temperature 20.0 - 300 °C |
9.80 µin/in-°F @Temperature 68.0 - 572 °F |
|
Eagle Brass 101 OFE COPPER (Certified), Extra Hard Alloy 101 is known as Oxygen-Free Electronic (OFE). It reaches a minimum of 101% IACS conductivity rating. It is the most expensive out of the 101- 110 group because of its higher purity.Information.. |
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CTE, linear | 17.6 µm/m-°C @Temperature 20.0 - 300 °C |
9.80 µin/in-°F @Temperature 68.0 - 572 °F |
|
Eagle Brass 101 OFE COPPER (Certified), Spring Alloy 101 is known as Oxygen-Free Electronic (OFE). It reaches a minimum of 101% IACS conductivity rating. It is the most expensive out of the 101- 110 group because of its higher purity.Information.. |
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CTE, linear | 17.6 µm/m-°C @Temperature 20.0 - 300 °C |
9.80 µin/in-°F @Temperature 68.0 - 572 °F |
|
Eagle Brass 102 OF COPPER (Non-Certified), Annealed Alloy 102 is an oxygen-free copper which has better forming, resistance to hydrogen embrittlement, and brazing characteristics than C110 ETP. C102 has good solder-ability and corrosion resistance an.. |
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CTE, linear | 17.6 µm/m-°C @Temperature 20.0 - 300 °C |
9.80 µin/in-°F @Temperature 68.0 - 572 °F |
|
Eagle Brass 102 OF COPPER (Non-Certified), Hard Alloy 102 is an oxygen-free copper which has better forming, resistance to hydrogen embrittlement, and brazing characteristics than C110 ETP. C102 has good solder-ability and corrosion resistance an.. |
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CTE, linear | 17.6 µm/m-°C @Temperature 20.0 - 300 °C |
9.80 µin/in-°F @Temperature 68.0 - 572 °F |
|
Eagle Brass 102 OF COPPER (Non-Certified), Spring Alloy 102 is an oxygen-free copper which has better forming, resistance to hydrogen embrittlement, and brazing characteristics than C110 ETP. C102 has good solder-ability and corrosion resistance an.. |
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CTE, linear | 17.6 µm/m-°C @Temperature 20.0 °C |
9.80 µin/in-°F @Temperature 68.0 °F |
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Materion PROtherm® Beryllium Copper Alloy Description: moldMAX® and PROtherm® are Brush Wellman's copper beryllium alloys specifically designed for the plastic processing industry. These alloys provide a combination of thermal conduct.. |