Thermal correction of thermoelastic data by a direct calibration of the thermal signal

Abstract: In thermoelastic stress analysis (TSA) the temperature change induced in a solid material as a result of the thermoelastic effect is measured with an infrared detector. Common infrared detectors used in TSA have a nonlinear signal to temperature relation. If a measurement is calibrated with a calibration constant determined previously at a specimen with a different absolute temperature, as well as if the measured surface has a non-uniform absolute temperature, the sensors' nonlinear response will cause signifi… Show more

“…Another method, used in this work, is to calibrate the thermal signal S DC against the temperature values [3] by measuring the absolute temperature signal S DC at different absolute temperature values and implementing the measured values in a calibration file of the DeltaVision software. After a measurement, a calibration routine is applied to the measured data which calibrates the measured values of the thermal signal S DC and the thermoelastic signal S against temperature values.…”

Identification of the critical load for cyclic loading of shortfibre reinforced PA6 GF30 by a quantitative analysis of the thermoelastic response

“…Another method, used in this work, is to calibrate the thermal signal S DC against the temperature values [3] by measuring the absolute temperature signal S DC at different absolute temperature values and implementing the measured values in a calibration file of the DeltaVision software. After a measurement, a calibration routine is applied to the measured data which calibrates the measured values of the thermal signal S DC and the thermoelastic signal S against temperature values.…”

Identification of the critical load for cyclic loading of shortfibre reinforced PA6 GF30 by a quantitative analysis of the thermoelastic response

Thermoelastic Stress Analysis