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Polymer Property : CTE, linear = 5.60 µm/m-°C Product List

Thermal Properties

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Thermal Properties Metric English Comments
CTE, linear 5.60 - 6.30 µm/m-°C

@Temperature 20.0 - 100 °C
3.11 - 3.50 µin/in-°F

@Temperature 68.0 - 212 °F
MarkeTech W90Cu Tungsten/Copper Heat Sink Material
WCu composites are made by vacuum infiltration of uniform controlled porous blocks of tungsten with molten copper. This results in a material with an interconnected Cu matrix that has high thermal c..
CTE, linear 5.60 µm/m-°C

@Temperature 23.0 - 260 °C
3.11 µin/in-°F

@Temperature 73.4 - 500 °F
ASTM D696
Daelim H&L Plavis N Aromatic Polyimide, Non-Filled, Machined Parts
Superior chemical property, very high radiation resistance, electrical and thermal property, low outgassing and superior physical propertyInformation provided by Daelim H&L
CTE, linear 5.60 µm/m-°C

@Temperature 1000 °C
3.11 µin/in-°F

@Temperature 1830 °F
Chosun Refractories N1-1 Fireclay brick
Information provided by Chosun Refractories via Korea Institute of Ceramic Engineering and Technology (KICET).
CTE, linear 5.60 µm/m-°C

@Temperature 1000 °C
3.11 µin/in-°F

@Temperature 1830 °F
Chosun Refractories N1-2 Fireclay brick
Information provided by Chosun Refractories via Korea Institute of Ceramic Engineering and Technology (KICET).
CTE, linear 5.60 µm/m-°C

@Temperature 1000 °C
3.11 µin/in-°F

@Temperature 1830 °F
Chosun Refractories SF33 Hard Fireclay brick
Information provided by Chosun Refractories via Korea Institute of Ceramic Engineering and Technology (KICET).
CTE, linear 5.60 µm/m-°C

@Temperature 1000 °C
3.11 µin/in-°F

@Temperature 1830 °F
Chosun Refractories SF34 Hard Fireclay brick
Information provided by Chosun Refractories via Korea Institute of Ceramic Engineering and Technology (KICET).
CTE, linear 5.60 µm/m-°C

@Temperature 20.0 - 1093 °C
3.11 µin/in-°F

@Temperature 68.0 - 1999 °F
BNZ Materials BNZ-20 Insulating Firebrick
BNZ produces many types of Insulating Fire Brick (IFB) for use in applications from 2,000°F (1,093°C) to 3,200°F (1,760°C). Each type is formulated to meet specific thermal and physical requirem..
CTE, linear 5.60 µm/m-°C

@Temperature 20.0 - 1093 °C
3.11 µin/in-°F

@Temperature 68.0 - 1999 °F
BNZ Materials BNZ-23 Insulating Firebrick
BNZ produces many types of Insulating Fire Brick (IFB) for use in applications from 2,000°F (1,093°C) to 3,200°F (1,760°C). Each type is formulated to meet specific thermal and physical requirem..
CTE, linear 5.60 µm/m-°C

@Temperature 20.0 - 1093 °C
3.11 µin/in-°F

@Temperature 68.0 - 1999 °F
BNZ Materials BNZ-23A Insulating Firebrick
BNZ produces many types of Insulating Fire Brick (IFB) for use in applications from 2,000°F (1,093°C) to 3,200°F (1,760°C). Each type is formulated to meet specific thermal and physical requirem..
CTE, linear 5.60 µm/m-°C

@Temperature 20.0 - 1093 °C
3.11 µin/in-°F

@Temperature 68.0 - 1999 °F
BNZ Materials BNZ-23HS Insulating Firebrick
BNZ produces many types of Insulating Fire Brick (IFB) for use in applications from 2,000°F (1,093°C) to 3,200°F (1,760°C). Each type is formulated to meet specific thermal and physical requirem..
CTE, linear 5.60 µm/m-°C

@Temperature 20.0 - 1093 °C
3.11 µin/in-°F

@Temperature 68.0 - 1999 °F
BNZ Materials BNZ-24 Insulating Firebrick
BNZ produces many types of Insulating Fire Brick (IFB) for use in applications from 2,000°F (1,093°C) to 3,200°F (1,760°C). Each type is formulated to meet specific thermal and physical requirem..
CTE, linear 5.60 µm/m-°C

@Temperature 20.0 - 1093 °C
3.11 µin/in-°F

@Temperature 68.0 - 1999 °F
BNZ Materials BNZ-25 Insulating Firebrick
BNZ produces many types of Insulating Fire Brick (IFB) for use in applications from 2,000°F (1,093°C) to 3,200°F (1,760°C). Each type is formulated to meet specific thermal and physical requirem..
CTE, linear 5.60 µm/m-°C

@Temperature 20.0 - 1093 °C
3.11 µin/in-°F

@Temperature 68.0 - 1999 °F
BNZ Materials BNZ-26 HS Insulating Firebrick
BNZ produces many types of Insulating Fire Brick (IFB) for use in applications from 2,000°F (1,093°C) to 3,200°F (1,760°C). Each type is formulated to meet specific thermal and physical requirem..
CTE, linear 5.60 µm/m-°C

@Temperature 20.0 - 1093 °C
3.11 µin/in-°F

@Temperature 68.0 - 1999 °F
BNZ Materials BNZ-26 Insulating Firebrick
BNZ produces many types of Insulating Fire Brick (IFB) for use in applications from 2,000°F (1,093°C) to 3,200°F (1,760°C). Each type is formulated to meet specific thermal and physical requirem..
CTE, linear 5.60 µm/m-°C

@Temperature 20.0 - 1093 °C
3.11 µin/in-°F

@Temperature 68.0 - 1999 °F
BNZ Materials BNZ-26-60 Insulating Firebrick
BNZ produces many types of Insulating Fire Brick (IFB) for use in applications from 2,000°F (1,093°C) to 3,200°F (1,760°C). Each type is formulated to meet specific thermal and physical requirem..
CTE, linear 5.60 µm/m-°C

@Temperature 20.0 - 1093 °C
3.11 µin/in-°F

@Temperature 68.0 - 1999 °F
BNZ Materials PA 20 Insulating Firebrick
BNZ produces many types of Insulating Fire Brick (IFB) for use in applications from 2,000°F (1,093°C) to 3,200°F (1,760°C). Each type is formulated to meet specific thermal and physical requirem..
CTE, linear 5.60 µm/m-°C

@Temperature 20.0 - 1093 °C
3.11 µin/in-°F

@Temperature 68.0 - 1999 °F
BNZ Materials PA 23 Insulating Firebrick
BNZ produces many types of Insulating Fire Brick (IFB) for use in applications from 2,000°F (1,093°C) to 3,200°F (1,760°C). Each type is formulated to meet specific thermal and physical requirem..
CTE, linear 5.60 µm/m-°C

@Temperature 20.0 - 1093 °C
3.11 µin/in-°F

@Temperature 68.0 - 1999 °F
BNZ Materials PA 26 Insulating Firebrick
BNZ produces many types of Insulating Fire Brick (IFB) for use in applications from 2,000°F (1,093°C) to 3,200°F (1,760°C). Each type is formulated to meet specific thermal and physical requirem..
CTE, linear 5.60 µm/m-°C

@Temperature 20.0 - 1000 °C
3.11 µin/in-°F

@Temperature 68.0 - 1830 °F
Ceradyne Ceralloy® 1370CS Aluminum Nitride
Features:high thermal conductivityApplications:semiconductor componentsInformation provided by Ceradyne Company
CTE, linear 5.60 µm/m-°C

@Temperature 20.0 - 1000 °C
3.11 µin/in-°F

@Temperature 68.0 - 1830 °F
Ceradyne Ceralloy® 546-3E Boron Carbide
Features:low porosityhigh puritysingle phaseApplications:semiconductor componentsInformation provided by Ceradyne Company
CTE, linear 5.60 µm/m-°C

@Temperature 20.0 - 1000 °C
3.11 µin/in-°F

@Temperature 68.0 - 1830 °F
Ceradyne Ceralloy® 546-4E Boron Carbide
Features:neutron absorptionwear resistancehardnesslightweightApplications:semiconductor componentswear componentsballistic armorsputtering targetsnuclear shieldingInformation provided by Ceradyne Co..
CTE, linear 5.60 µm/m-°C

@Temperature 20.0 - 1000 °C
3.11 µin/in-°F

@Temperature 68.0 - 1830 °F
Ceradyne Ceralloy® 546 Boron Carbide
Features:neutron absorptionwear resistancehardnesslightweightApplications:semiconductor componentswear componentsballistic armorsputtering targetsnuclear shieldingInformation provided by Ceradyne Co..
CTE, linear 5.60 µm/m-°C

@Temperature 20.0 - 200 °C
3.11 µin/in-°F

@Temperature 68.0 - 392 °F
CeramTec 975 Alumina, 99.5%
975 (99.5%) offers unique technology by virtue of its optimal dispersion of the MgO phase with the alumina grains. With virtually no transgranular porosity in its microstructure, 975 exhibits high d..
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