论文信息 - Performance Characterization and Vibration Testing of 30-cm Carbon-Carbon Ion Optics

Performance Characterization and Vibration Testing of 30-cm Carbon-Carbon Ion Optics

Carbon-based ion optics have the potential to significantly increase the operable life and power ranges of ion thrusters because of reduced erosion rates compared to molybdenum optics. The development of 15-cm and larger diameter grids has encountered many problems, however, not the least of which is the ability to pass vibration testing. JPL has recently developed a new generation of 30-cm carbon-carbon ion optics in order to address these problems and demonstrate the viability of the technology. Perveance, electron backstreaming, and screen grid transparency data are presented for two sets of optics. Vibration testing was successfully performed on two different sets of ion optics with no damage and the results of those tests are compared to models of grid vibrational behavior. It will be shown that the vibration model is a conservative predictor of grid response and can accurately describe test results. There was no change in grid alignment as a result of vibration testing and a slight improvement, if any change at all, in optics performance.

John R. Brophy | John Steven Snyder

[1] J. Polk,et al. An overview of the Nuclear Electric Xenon Ion System (NEXIS) program , 2003 .

[2] Hitoshi Kuninaka,et al. Verification Tests of Carbon-Carbon Composite Grids for Microwave Discharge Ion Thruster , 2002 .

[3] George C. Soulas,et al. Performance and Vibration of 30 cm Pyrolytic Ion Thruster Optics , 2004 .

[4] James E. Polk,et al. Numerical simulations of ion thruster accelerator grid erosion , 2002 .

[5] John R. Brophy,et al. NASA's Deep Space 1 ion engine , 2002 .

[6] Dan M. Goebel,et al. Development and testing of carbon-based ion optics for 30-cm ion thrusters , 2003 .

[8] Michael J. Patterson,et al. Design and fabrication of a flight model 2.3 kW ion thruster for the Deep Space 1 Mission , 1998 .

[9] Yukio Hayakawa,et al. Endurance Test of C/C Grids for 14-cm Xenon Ion Thrusters , 2002 .

[10] John R. Anderson,et al. Service Life Assessment for Ion Engines , 1998 .

[11] Paul J. Wilbur,et al. EXPERIMENTAL EVALUATION OF SUB-SCALE CBIO ION OPTICS SYSTEMS , 2003 .

[12] Kimiya Komurasaki,et al. AN OVERVIEW OF ELECTRIC PROPULSION ACTIVITIES IN JAPAN , 2003 .

[13] John Steven Snyder,et al. Review of carbon-based grid development activities for ion thrusters , 2003 .