TY - JOUR
AU1 - Anferov, P.
AU2 - Vidin, Yu.
AU3 - Galenko, Yu.
AU4 - Zamyatina, V.
AU5 - Lushev, V.
AU6 - Fedyukovich, A.
AU7 - Khrustalev, Yu.
AB - P. I. Anferov, Yu. V. Vidin, Yu. A. Galenko, UDC 533.17 V. V. Zamyatina, V. P. Lushev, A. K. Fedyukovich, and Yu. V. Khrustalev One needs to know the sensor dynamic characteristics in temperature measurements on gases in rapidly filled vessels [I]. Thermocouple lag theory [2, 3] leads one to estimate such characteristics from the time-constant, which is usually substantially dependent on the interaction with the medium. The dynamic characteristics must thus be determined under conditions close to those of use [4-6]. We have built an apparatus for determining those characteristics on filling a vessel with air to a pressure of not more than 5 MPa at rates of 5-500 MPa/sec (Fig. i). The device consists of the cylindrical vessel 3 and spherical working chamber 8, volumes correspondingly 8.10 -s and 2"10 -3 m ~, which are made up from standard gas vessels. Those vessels bear the welded tubes 7 with internal diameter 38 mm, between which is the annular insert 5 bearing the diaphragm 6. The pressure in the first vessel is provided by an AK-50 aircraft compressor and is monitored by a standard gauge. The device 2 ruptures the dia- phragm, which contains a striker impelled by 
TI - An apparatus for temperature-sensor dynamic-response determination
JF - Measurement Techniques
DO - 10.1007/BF00864441
DA - 2004-12-06
UR - https://www.deepdyve.com/lp/springer-journals/an-apparatus-for-temperature-sensor-dynamic-response-determination-jRH31k4zYy
SP - 488
EP - 489
VL - 33
IS - 5
DP - DeepDyve
ER -