An optical-based technique using Pressure-Sensitive Paint(PSP) is a promising method to measure the distribution of surface pressure on an aerodynamic model. The static and dynamic characteristics of a fast-response...An optical-based technique using Pressure-Sensitive Paint(PSP) is a promising method to measure the distribution of surface pressure on an aerodynamic model. The static and dynamic characteristics of a fast-response PSP that is developed in the Chinese Academy of Sciences(CAS)are analyzed and tested to serve as the basis for experiments on unsteady surface measurement using a fast-response PSP. Two calibration systems used for this study are set up to investigate the temperature dependency, response time, and resolution. A data processing method, used for dynamic data, is analyzed and selected carefully to determine the optimum signal. Results show that the fastresponse PSP can be used normally at temperatures from 25 ℃ to 80 ℃. The effect of temperature on the accuracy of the measurement must be considered when temperatures are beyond the temperature range of 30–40 ℃. The dynamic calibration device with a solenoid valve can achieve a pressure jump within a millisecond order. The resolution is determined by the signal-to-noise ratio of the photo-multiplier tube. Results of the measurement show that the response time of the PSP decreases with a large pressure variation, and the response time is below 0.016 s when the pressure variation is under 40 kPa.展开更多
In recent years,molybdenum disulfide(Mo S2)has exhibited remarkable electrical,mechanical and optical properties because of its ultrathin body thickness,flexibility and direct bandgap for photo response[1].
基金cosupported by the ‘‘111 Project” of China (No.B17037)Innovation Foundation for Doctor Dissertation of Northwestern Polytechnical University of China (No.CX201713)the National Natural Science Foundation of China (No.51476132)
文摘An optical-based technique using Pressure-Sensitive Paint(PSP) is a promising method to measure the distribution of surface pressure on an aerodynamic model. The static and dynamic characteristics of a fast-response PSP that is developed in the Chinese Academy of Sciences(CAS)are analyzed and tested to serve as the basis for experiments on unsteady surface measurement using a fast-response PSP. Two calibration systems used for this study are set up to investigate the temperature dependency, response time, and resolution. A data processing method, used for dynamic data, is analyzed and selected carefully to determine the optimum signal. Results show that the fastresponse PSP can be used normally at temperatures from 25 ℃ to 80 ℃. The effect of temperature on the accuracy of the measurement must be considered when temperatures are beyond the temperature range of 30–40 ℃. The dynamic calibration device with a solenoid valve can achieve a pressure jump within a millisecond order. The resolution is determined by the signal-to-noise ratio of the photo-multiplier tube. Results of the measurement show that the response time of the PSP decreases with a large pressure variation, and the response time is below 0.016 s when the pressure variation is under 40 kPa.
基金supported by the National Key Research and Development Program(Grant Nos.2018YFA0208503,2017YFB0701703,2016YFA020-1802,and 2016YFA0201802)the Opening Project of Key Laboratory of Microelectronic Devices and Integrated Technology,Institute of Microelectronics,Chinese Academy of Sciences,the Beijing Training Project for the Leading Talents in S&T(Grant No.Z151100000315008)+1 种基金the National Natural Science Foundation of China(Grant Nos.61725404,61890944,61574166,61874134,61804170,61221004,61404164,61821091,and61888102)the Strategic Priority Research Program of Chinese Academy of Sciences(Grant Nos.XDB30000000,and XDB12030400)
文摘In recent years,molybdenum disulfide(Mo S2)has exhibited remarkable electrical,mechanical and optical properties because of its ultrathin body thickness,flexibility and direct bandgap for photo response[1].
