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貨物所在地:
北京北京市
更新時間:
2023-04-28 21:00:06
有效期:
2023年4月28日 -- 2023年10月28日
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The Model C-2500-HTS Thermal Conductivity system is designed for measureing the thermal
conductivities of highly conducting materials from room temperatures to 1000
 
SPECIFICATIONS
Conductivity Range:
0.02 to 50 BTU/hr.ft. F
Temperature Range:
R.T. to 1000 C
Accuracy:
+/- 5%
Sensing Surfaces:
Nickle alloys/air cooling. Interface thermal
resistance correction curve supplied
Calibration:
ASTM C177-76
Heat Guard:
Automatic
Readout In Following Units:
Sample Heat Flux....BTU/hr.ft. (Dual Readouts)
Sample Ambient Temperature.......................... F
Sample Temperature Difference....................... F
 
THE HIGH TEMPERATURE, THERMAL
CONDUCTIVITY MEASUREMENT
TECHNIQUE
The contact(sensing) surfaces of the high temperature conductivity system are composed of traceable Alumel, whose thermoelectric and physical properties are known.
 
A disc of Chromel, whose properties are also known as a function of temperature, is placed in thermal, and electrical contact between the Alumel surfaces. At a constant heat flow, a temperature difference will be established across the Chromel disc, consequently, a thermoelectric voltage will be generated between the Alumel surfaces. This voltage is directly related to the heat flux through the Alumel surface Two such heat flux sensors encompass the sample to be measured, thus, the heat flux entering the sample can be averaged with the heat flux exiting the sample. The values so obtained obviate the necessity for guarded hot plates,
thus yielding greater accuracy
 
The temperature difference across the sample is sensed with two Type “K” Chromel/Alumel thermocouple discs which provide an average value over the entire sample surface.
 
When measuring highly conducting samples, the interface resistances between the sample surfaces and the sensing surfaces can be greater than the innate thermal resistance of the sample. A special technique has been developed to determine the actual surface temperatures of the sample and may be applied not only to high temperature conductivity measurements, but also to low temperature measurements.

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