Thermal Properties | Metric | English | Comments |
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CTE, linear | 7.50 µm/m-°C @Temperature -50.0 - 150 °C |
4.17 µin/in-°F @Temperature -58.0 - 302 °F |
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PCC-Advanced Forming Technology 68% AlSiC Metal Matrix Composite AlSiC metal matrix composites are formed by pressure infiltrating molten aluminum into silicon carbide preforms. This method of casting is typically used in applications where solution requirements .. |
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CTE, linear | 7.50 µm/m-°C @Temperature 20.0 - 600 °C |
4.17 µin/in-°F @Temperature 68.0 - 1110 °F |
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Misumi Alumina 99 Aluminum Oxide, Al2O3 Information provided by MISUMI Corporation. |
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CTE, linear | 7.50 µm/m-°C @Temperature -30.0 - 70.0 °C |
4.17 µin/in-°F @Temperature -22.0 - 158 °F |
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Schott BG38 Band Pass Filter Ionically colored glass. Data provided by the manufacturer, Schott Glas Mainz. |
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CTE, linear | 7.50 µm/m-°C @Temperature -30.0 - 70.0 °C |
4.17 µin/in-°F @Temperature -22.0 - 158 °F |
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Schott SF10 Glass Information Provided by SCHOTT North America, Inc. |
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CTE, linear | 7.50 µm/m-°C @Temperature 20.0 - 400 °C |
4.17 µin/in-°F @Temperature 68.0 - 752 °F |
DIN EN 821-1 |
CeramTec RK 87 Alumina, 99.8% Aluminas exhibit good mechanical properties such as hardness, compressive and tensile strength, and elastic modulus. They perform well at elevated temperatures. |
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CTE, linear | 7.50 µm/m-°C @Temperature 20.0 - 600 °C |
4.17 µin/in-°F @Temperature 68.0 - 1110 °F |
ASTM-C373 |
CeramTec Rubalit® 710 Alumina, 99.6% Rubalit® 710 (99.6%) is an alumina that produces optimum results and is considered the material of choice for thin-film technology. Its characterizing features are high strength and thermal conduct.. |
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CTE, linear | 7.50 µm/m-°C @Temperature 20.0 - 600 °C |
4.17 µin/in-°F @Temperature 68.0 - 1110 °F |
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CeramTec Rubalit® A 1894 Alumina, 94% Rubalit® A 1894 (94%) was specifically developed in response to electrical and electronic engineering needs. In conjunction with CeramTec's complementary metallization systems, a vacuum-tight bond .. |
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CTE, linear | 7.50 µm/m-°C @Temperature 20.0 - 200 °C |
4.17 µin/in-°F @Temperature 68.0 - 392 °F |
DIN EN 821-1 |
CeramTec Rubalit® A 1999.5 Alumina, 99.7% Rubalit® A 1999.5 (99.7%) is mechanically stronger, features a higher heat conductivity, and is more corrosion resistant than other aluminas. This high-purity aluminum oxide ceramic with carbon mat.. |
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CTE, linear | 7.50 µm/m-°C @Temperature 20.0 - 400 °C |
4.17 µin/in-°F @Temperature 68.0 - 752 °F |
DIN EN 821-1 |
CeramTec Rubalit® A 1999.5 Alumina, 99.7% Rubalit® A 1999.5 (99.7%) is mechanically stronger, features a higher heat conductivity, and is more corrosion resistant than other aluminas. This high-purity aluminum oxide ceramic with carbon mat.. |
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CTE, linear | 7.50 µm/m-°C @Temperature 20.0 - 600 °C |
4.17 µin/in-°F @Temperature 68.0 - 1110 °F |
DIN EN 821-1 |
CeramTec Rubalit® A 1999.5 Alumina, 99.7% Rubalit® A 1999.5 (99.7%) is mechanically stronger, features a higher heat conductivity, and is more corrosion resistant than other aluminas. This high-purity aluminum oxide ceramic with carbon mat.. |
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CTE, linear | 7.50 µm/m-°C @Temperature 20.0 - 600 °C |
4.17 µin/in-°F @Temperature 68.0 - 1110 °F |
DIN EN 821-1 |
CeramTec Rubalit® IS 95 Alumina Rubalit® IS 95 is a high-performance alumina ceramic. Aluminas exhibit good mechanical properties such as hardness, compressive and tensile strength, and elastic modulus. They perform well at eleva.. |
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CTE, linear | 7.50 µm/m-°C @Temperature 20.0 - 400 °C |
4.17 µin/in-°F @Temperature 68.0 - 752 °F |
DIN EN 821-1 |
CeramTec V 679 Alumina, 99.7% Aluminas exhibit good mechanical properties such as hardness, compressive and tensile strength, and elastic modulus. They perform well at elevated temperatures. |
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CTE, linear | 7.50 µm/m-°C @Temperature 25.0 - 600 °C |
4.17 µin/in-°F @Temperature 77.0 - 1110 °F |
ASTM-C372 |
CoorsTek ADS-995 99.5% Alumina Thin Film Applications: thin film substrates |
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CTE, linear | 7.50 µm/m-°C @Temperature 20.0 - 600 °C |
4.17 µin/in-°F @Temperature 68.0 - 1110 °F |
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Advanced Ceramics ALC 1082 (C-786) Alumina Information provided by Advanced Ceramics Limited (ACL) |
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CTE, linear | 7.50 µm/m-°C @Temperature 25.0 - 416 °C |
4.17 µin/in-°F @Temperature 77.0 - 781 °F |
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Carpenter Pyromet® CTX-3 Superalloy, Heat Treated Data provided by Carpenter Technology Corporation.Pyromet® alloy CTX-3 is a high strength, precipitation hardenable superalloy which exhibits a low CTE over a broad temperature range. This alloy a.. |
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CTE, linear | 7.50 µm/m-°C @Temperature 25.0 - 416 °C |
4.17 µin/in-°F @Temperature 77.0 - 781 °F |
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Carpenter Pyromet® CTX-3 Superalloy, Heat Treatment for Brazing Cycles over 982°C Data provided by Carpenter Technology Corporation.Pyromet® alloy CTX-3 is a high strength, precipitation hardenable superalloy which exhibits a low CTE over a broad temperature range. This alloy a.. |
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CTE, linear | 7.50 µm/m-°C @Temperature 30.0 - 400 °C |
4.17 µin/in-°F @Temperature 86.0 - 752 °F |
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Ametek Molybdenum-Copper Composite AMC 8020 Information supplied by Ametek Specialty Metal Products.The material is available as finished parts with the following maximum dimensions:Width: 6 inches (152 mm)Thickness: 0.150 inches (3.8 mm)Leng.. |
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CTE, linear | 7.50 µm/m-°C @Temperature 20.0 - 600 °C |
4.17 µin/in-°F @Temperature 68.0 - 1110 °F |
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Advanced Ceramics ALC 1081 (C-786) Alumina Information provided by Advanced Ceramics Limited (ACL) |
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CTE, linear | 7.50 µm/m-°C @Temperature 20.0 - 600 °C |
4.17 µin/in-°F @Temperature 68.0 - 1110 °F |
DIN EN 821-1 |
CeramTec Rubalit® A 1896 Alumina Rubalit® A 1896 (96%) is an aluminum oxide ceramic with an optimum price/performance ratio. Its outstanding properties are low density, low weight, high corrosion and wear resistance, excellent ele.. |
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CTE, linear | 7.50 µm/m-°C @Temperature 20.0 - 300 °C |
4.17 µin/in-°F @Temperature 68.0 - 572 °F |
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Schott N-LAK9 Glass Information Provided by SCHOTT North America, Inc. |
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CTE, linear | 7.50 µm/m-°C @Temperature 30.0 °C |
4.17 µin/in-°F @Temperature 86.0 °F |
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Ceramic Process Systems AlSiC-9, 63 vol% SiC Aluminum alloy A356.2 used. Hermeticity < 1x109 atm-cc/s He.CPS fabricates AlSiC by preparing an SiC preform which is subsequently infiltrated by molten aluminum metal. After infiltration, compone.. |