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Polymer Property : Specific Heat Capacity = 0.179 BTU/lb-°F Product List
Thermal PropertiesTips: 30 items are displayed at most. For the rest of the results, please contact customer service.
| Thermal Properties | Metric | English | Comments |
|---|---|---|---|
| Specific Heat Capacity | 0.750 J/g-°C | 0.179 BTU/lb-°F | |
| Osprey Metals CE7 Al-Si Controlled Expansion Alloy Si-30%Al controlled expansion alloy manufactured and patented by Osprey Metals Ltd.Information provided to MatWeb by Osprey Metals. |
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| Specific Heat Capacity | 0.749 J/g-°C @Temperature 1100 °C |
0.179 BTU/lb-°F @Temperature 2010 °F |
|
| Haynes 214® alloy sheet Intended principally for use at temperatures of 955°C and above, exhibits resistance to oxidation that exceeds virtually all conventional heat-resistant wrought alloys. Applications include mesh .. |
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| Specific Heat Capacity | 0.749 J/g-°C @Temperature 1100 °C |
0.179 BTU/lb-°F @Temperature 2010 °F |
|
| Haynes 214® alloy, 10% cold reduction, 925°C for 5 minutes Intended principally for use at temperatures of 955°C and above, exhibits resistance to oxidation that exceeds virtually all conventional heat-resistant wrought alloys. Applications include mesh .. |
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| Specific Heat Capacity | 0.749 J/g-°C @Temperature 1100 °C |
0.179 BTU/lb-°F @Temperature 2010 °F |
|
| Haynes 214® alloy, 20% cold reduction, 1095°C (2000°F) for 5 minutes Intended principally for use at temperatures of 955°C and above, exhibits resistance to oxidation that exceeds virtually all conventional heat-resistant wrought alloys. Applications include mesh .. |
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| Specific Heat Capacity | 0.749 J/g-°C @Temperature 1100 °C |
0.179 BTU/lb-°F @Temperature 2010 °F |
|
| Haynes 214® alloy, 20% cold reduction, 925°C for 5 minutes Intended principally for use at temperatures of 955°C and above, exhibits resistance to oxidation that exceeds virtually all conventional heat-resistant wrought alloys. Applications include mesh .. |
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| Specific Heat Capacity | 0.749 J/g-°C @Temperature 1100 °C |
0.179 BTU/lb-°F @Temperature 2010 °F |
|
| Haynes 214® alloy, 20% cold reduction, 980°C (1800°F) for 5 minutes Intended principally for use at temperatures of 955°C and above, exhibits resistance to oxidation that exceeds virtually all conventional heat-resistant wrought alloys. Applications include mesh .. |
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| Specific Heat Capacity | 0.749 J/g-°C @Temperature 1100 °C |
0.179 BTU/lb-°F @Temperature 2010 °F |
|
| Haynes 214® alloy, 30% cold reduction, 925°C for 5 minutes Intended principally for use at temperatures of 955°C and above, exhibits resistance to oxidation that exceeds virtually all conventional heat-resistant wrought alloys. Applications include mesh .. |
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| Specific Heat Capacity | 0.749 J/g-°C @Temperature 1100 °C |
0.179 BTU/lb-°F @Temperature 2010 °F |
|
| Haynes 214® alloy, 40% cold reduction, 1095°C (2000°F) for 5 minutes Intended principally for use at temperatures of 955°C and above, exhibits resistance to oxidation that exceeds virtually all conventional heat-resistant wrought alloys. Applications include mesh .. |
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| Specific Heat Capacity | 0.749 J/g-°C @Temperature 1100 °C |
0.179 BTU/lb-°F @Temperature 2010 °F |
|
| Haynes 214® alloy, 40% cold reduction, 925°C for 5 minutes Intended principally for use at temperatures of 955°C and above, exhibits resistance to oxidation that exceeds virtually all conventional heat-resistant wrought alloys. Applications include mesh .. |
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| Specific Heat Capacity | 0.749 J/g-°C @Temperature 1100 °C |
0.179 BTU/lb-°F @Temperature 2010 °F |
|
| Haynes 214® alloy, 40% cold reduction, 980°C (1800°F) for 5 minutes Intended principally for use at temperatures of 955°C and above, exhibits resistance to oxidation that exceeds virtually all conventional heat-resistant wrought alloys. Applications include mesh .. |
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| Specific Heat Capacity | 0.749 J/g-°C @Temperature 1100 °C |
0.179 BTU/lb-°F @Temperature 2010 °F |
|
| Haynes 214® alloy, 50% cold reduction, 1095°C (2000°F) for 5 minutes Intended principally for use at temperatures of 955°C and above, exhibits resistance to oxidation that exceeds virtually all conventional heat-resistant wrought alloys. Applications include mesh .. |
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| Specific Heat Capacity | 0.749 J/g-°C @Temperature 1100 °C |
0.179 BTU/lb-°F @Temperature 2010 °F |
|
| Haynes 214® alloy, 50% cold reduction, 980°C (1800°F) for 5 minutes Intended principally for use at temperatures of 955°C and above, exhibits resistance to oxidation that exceeds virtually all conventional heat-resistant wrought alloys. Applications include mesh .. |
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| Specific Heat Capacity | 0.749 J/g-°C @Temperature 1100 °C |
0.179 BTU/lb-°F @Temperature 2010 °F |
|
| Haynes 214® alloy, sheet, 100 hours exposure at 760°C (1400°F) Intended principally for use at temperatures of 955°C and above, exhibits resistance to oxidation that exceeds virtually all conventional heat-resistant wrought alloys. Applications include mesh .. |
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| Specific Heat Capacity | 0.749 J/g-°C @Temperature 1100 °C |
0.179 BTU/lb-°F @Temperature 2010 °F |
|
| Haynes 214® alloy, sheet, 100 hours exposure at 870°C (1600°F) Intended principally for use at temperatures of 955°C and above, exhibits resistance to oxidation that exceeds virtually all conventional heat-resistant wrought alloys. Applications include mesh .. |
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| Specific Heat Capacity | 0.749 J/g-°C @Temperature 1100 °C |
0.179 BTU/lb-°F @Temperature 2010 °F |
|
| Haynes 214® alloy, sheet, 100 hours exposure at 980°C (1800°F) Intended principally for use at temperatures of 955°C and above, exhibits resistance to oxidation that exceeds virtually all conventional heat-resistant wrought alloys. Applications include mesh .. |
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| Specific Heat Capacity | 0.749 J/g-°C @Temperature 1100 °C |
0.179 BTU/lb-°F @Temperature 2010 °F |
|
| Haynes 214® alloy, sheet, 1000 hours exposure at 760°C (1400°F) Intended principally for use at temperatures of 955°C and above, exhibits resistance to oxidation that exceeds virtually all conventional heat-resistant wrought alloys. Applications include mesh .. |
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| Specific Heat Capacity | 0.749 J/g-°C @Temperature 1100 °C |
0.179 BTU/lb-°F @Temperature 2010 °F |
|
| Haynes 214® alloy, sheet, 1000 hours exposure at 870°C (1600°F) Intended principally for use at temperatures of 955°C and above, exhibits resistance to oxidation that exceeds virtually all conventional heat-resistant wrought alloys. Applications include mesh .. |
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| Specific Heat Capacity | 0.749 J/g-°C @Temperature 1100 °C |
0.179 BTU/lb-°F @Temperature 2010 °F |
|
| Haynes 214® alloy, sheet, 1000 hours exposure at 980°C (1800°F) Intended principally for use at temperatures of 955°C and above, exhibits resistance to oxidation that exceeds virtually all conventional heat-resistant wrought alloys. Applications include mesh .. |
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| Specific Heat Capacity | 0.749 J/g-°C @Temperature 1100 °C |
0.179 BTU/lb-°F @Temperature 2010 °F |
|
| Haynes 214® alloy, sheet, 32 hours exposure at 760°C (1400°F) Intended principally for use at temperatures of 955°C and above, exhibits resistance to oxidation that exceeds virtually all conventional heat-resistant wrought alloys. Applications include mesh .. |
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| Specific Heat Capacity | 0.749 J/g-°C @Temperature 1100 °C |
0.179 BTU/lb-°F @Temperature 2010 °F |
|
| Haynes 214® alloy, sheet, 32 hours exposure at 870°C (1600°F) Intended principally for use at temperatures of 955°C and above, exhibits resistance to oxidation that exceeds virtually all conventional heat-resistant wrought alloys. Applications include mesh .. |
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| Specific Heat Capacity | 0.749 J/g-°C @Temperature 1100 °C |
0.179 BTU/lb-°F @Temperature 2010 °F |
|
| Haynes 214® alloy, 10% cold reduction, 1095°C (2000°F) for 5 minutes Intended principally for use at temperatures of 955°C and above, exhibits resistance to oxidation that exceeds virtually all conventional heat-resistant wrought alloys. Applications include mesh .. |
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| Specific Heat Capacity | 0.749 J/g-°C @Temperature 1100 °C |
0.179 BTU/lb-°F @Temperature 2010 °F |
|
| Haynes 214® alloy, 30% cold reduction, 980°C (1800°F) for 5 minutes Intended principally for use at temperatures of 955°C and above, exhibits resistance to oxidation that exceeds virtually all conventional heat-resistant wrought alloys. Applications include mesh .. |
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| Specific Heat Capacity | 0.750 J/g-°C | 0.179 BTU/lb-°F | |
| Schott N-SF1 Glass Information Provided by SCHOTT North America, Inc. |
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| Specific Heat Capacity | 0.750 J/g-°C | 0.179 BTU/lb-°F | |
| Schott N-SF14 Glass Information Provided by SCHOTT North America, Inc. |
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| Specific Heat Capacity | 0.750 J/g-°C | 0.179 BTU/lb-°F | |
| Saint-Gobain HS Grade Optical Fused Quartz HS Grade Optical Fused Quartz is a high purity, low [OH] natural fused quartz. It has excellent IR transmission, useful transmission from 260 to 3500 nm, excellent visual quality with low bubbles, .. |
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| Specific Heat Capacity | 0.750 J/g-°C | 0.179 BTU/lb-°F | |
| Saint-Gobain Spectrosil® 1000 Optical Fused Quartz Spectrosil® 1000 grade is used for non-transmissive mirrors and substrates, and other high purity components which do not require specified optical transmission.Spectrosil® is a synthetic fuse.. |
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| Specific Heat Capacity | 0.750 J/g-°C | 0.179 BTU/lb-°F | |
| Saint-Gobain Spectrosil® 2200 Optical Fused Quartz Spectrosil® 2200 grade is an excimer laser grade developed for maximum transmission and prolonged life in microlithography and other critical deep UV applications using KrF (248 nm) and ArF (193 .. |
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| Specific Heat Capacity | 0.750 J/g-°C | 0.179 BTU/lb-°F | |
| Saint-Gobain Vitreosil® 055 Optical Fused Quartz Vitreosil® 055 is the highest grade of optical grade fused quartz available from Saint-Gobain Quartz for use in the near UV and visible. It has a useful transmission range from 270 nm in the nea.. |
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| Specific Heat Capacity | 0.750 J/g-°C | 0.179 BTU/lb-°F | |
| Goodfellow Ruby, Al2O3 Ruby exhibits identical properties to those of sapphire. Small amounts of impurities, especially chromium oxide, give ruby a red coloration. Useful optical range from 150 - 5500 nm.Information pro.. |
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| Specific Heat Capacity | 0.750 J/g-°C | 0.179 BTU/lb-°F | |
| Corning Vycor® 7913 UV-Transmitting Glass Special Features:Superior optical qualityTight dimensional controlThermal and chemical properties ideally suited to high temperatures.Excellent thermal shock resistanceTypical Applications:Halogen l.. |
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