Thermal Properties | Metric | English | Comments |
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Melting Point | 1213 - 1285 °C | 2215 - 2345 °F | |
Kennametal Stellite Stellite® 3 PM cast Typical applications include (aerospace) vane plugs, fuel metering pins, spacer bushings, (bearings) ball blanks, race blanks, (valve seat inserts) diesel engine exhaust, fluid valve seats, saw cutt.. |
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Melting Point | 1213 - 1285 °C | 2215 - 2345 °F | |
Kennametal Stellite Stellite® 3 PM with P/M Processing Typical applications include (aerospace) vane plugs, fuel metering pins, spacer bushings, (bearings) ball blanks, race blanks, (valve seat inserts) diesel engine exhaust, fluid valve seats, saw cutt.. |
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Melting Point | 1225 - 1285 °C | 2237 - 2345 °F | |
CLAL-MSX ARCAP Anticorrosion AP4 H13 3/4 hard, Drawn Copper Alloy Description: The AP4 grade is less easy to turn than the other grades of ARCAP. It can however be machined without more difficulty than the nickel chromium molybdenum steels.High Corrosion Resistanc.. |
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Melting Point | 1225 - 1285 °C | 2237 - 2345 °F | |
CLAL-MSX ARCAP Anticorrosion AP4 H14 4/4 hard, Drawn Copper Alloy Description: The AP4 grade is less easy to turn than the other grades of ARCAP. It can however be machined without more difficulty than the nickel chromium molybdenum steels.High Corrosion Resistanc.. |
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Melting Point | 1225 - 1285 °C | 2237 - 2345 °F | |
CLAL-MSX ARCAP Anticorrosion AP4 H15 Spring, Drawn Copper Alloy Description: The AP4 grade is less easy to turn than the other grades of ARCAP. It can however be machined without more difficulty than the nickel chromium molybdenum steels.High Corrosion Resistanc.. |
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Melting Point | 1225 - 1285 °C | 2237 - 2345 °F | |
CLAL-MSX ARCAP Anticorrosion AP4 H15 Spring, Rolled Copper Alloy Description: The AP4 grade is less easy to turn than the other grades of ARCAP. It can however be machined without more difficulty than the nickel chromium molybdenum steels.High Corrosion Resistanc.. |
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Melting Point | 1225 - 1285 °C | 2237 - 2345 °F | |
CLAL-MSX ARCAP Anticorrosion AP4 0 Annealed, Drawn Copper Alloy Description: The AP4 grade is less easy to turn than the other grades of ARCAP. It can however be machined without more difficulty than the nickel chromium molybdenum steels.High Corrosion Resistanc.. |
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Melting Point | 1225 - 1285 °C | 2237 - 2345 °F | |
CLAL-MSX ARCAP Anticorrosion AP4 0 Annealed, Rolled Copper Alloy Description: The AP4 grade is less easy to turn than the other grades of ARCAP. It can however be machined without more difficulty than the nickel chromium molybdenum steels.High Corrosion Resistanc.. |
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Melting Point | 1225 - 1285 °C | 2237 - 2345 °F | |
CLAL-MSX ARCAP Anticorrosion AP4 H11 1/4 hard, Drawn Copper Alloy Description: The AP4 grade is less easy to turn than the other grades of ARCAP. It can however be machined without more difficulty than the nickel chromium molybdenum steels.High Corrosion Resistanc.. |
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Melting Point | 1225 - 1285 °C | 2237 - 2345 °F | |
CLAL-MSX ARCAP Anticorrosion AP4 H11 1/4 hard, Rolled Copper Alloy Description: The AP4 grade is less easy to turn than the other grades of ARCAP. It can however be machined without more difficulty than the nickel chromium molybdenum steels.High Corrosion Resistanc.. |
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Melting Point | 1225 - 1285 °C | 2237 - 2345 °F | |
CLAL-MSX ARCAP Anticorrosion AP4 H12 1/2 hard, Drawn Copper Alloy Description: The AP4 grade is less easy to turn than the other grades of ARCAP. It can however be machined without more difficulty than the nickel chromium molybdenum steels.High Corrosion Resistanc.. |
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Melting Point | 1225 - 1285 °C | 2237 - 2345 °F | |
CLAL-MSX ARCAP Anticorrosion AP4 H12 1/2 hard, Rolled Copper Alloy Description: The AP4 grade is less easy to turn than the other grades of ARCAP. It can however be machined without more difficulty than the nickel chromium molybdenum steels.High Corrosion Resistanc.. |