Ke Tang scite author profile

Accurate thermal expansion data of material at low temperatures are important in material selection and structural design for a cryogenic system. In this study, an experimental setup with a proportional-integral-derivative (PID) temperature control system was developed to measure the thermal expansion of solid materials at low temperatures (77-293 K), using the strain gage method. To avoid the impact of the varied sensitivity coefficient of the strain gage with the temperature to ensure an accurate measurement, we corrected the sensitivity coefficient in the temperature range of 77-293 K, by comparing the measured thermal expansion data for 304 stainless steel with the source data from the National Institute of Standards and Technology, USA. With the corrected sensitivity coefficient of the strain gage, the measured linear contractions of oxygen-free copper become quite consistent with the NIST data (with a relative deviation of 2.37%) for the cooling-down process from 293 K to 80 K.

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Effect of RC load on performance of thermoacoustic engine

Bao

Chen

Tang

et al. 2006

Cryogenics

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Advances in thermoacoustic engine and its application to pulse tube refrigeration

2004

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Ke Tang

Thermoacoustic prime movers and refrigerators: Thermally powered engines without moving components

Measurement of boiling heat transfer coefficient in liquid nitrogen bath by inverse heat conduction method

Influence of resonance tube length on performance of thermoacoustically driven pulse tube refrigerator

Simulation and performance analysis of a heat transfer tube in SuperORV

Observation and analysis of the detachment frequency of coalesced bubbles in pool boiling liquid nitrogen

Measurement of thermal expansion at low temperatures using the strain gage method

Effect of RC load on performance of thermoacoustic engine

Advances in thermoacoustic engine and its application to pulse tube refrigeration

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