强激光与粒子束2025,Vol.37Issue(12):36-44,9.DOI:10.11884/HPLPB202537.250285
微波等离子体推力器微小推力测试研究
Research on micro thrust testing of microwave plasma thruster
摘要
Abstract
[Background]With the rapid development of microsatellite platforms such as CubeSats,microwave plasma thrusters have become ideal for orbit maintenance and attitude control due to their high specific impulse,no electrode ablation,compact structure,and flexible working fluid.However,the thrust of such thrusters(at the 1000 W power level)is usually in the millinewton range,and its accurate measurement is crucial for performance verification.Existing thrust measurement schemes require at least 50 cm of space,conflicting with the extreme spatial constraint of 18 cm×16 cm in the current laboratory vacuum chamber;traditional indirect measurement also requires 2-3 parameters,increasing experimental complexity.[Purpose]This study aims to address the spatial limitation of the vacuum chamber,develop miniaturized thrust measurement schemes,establish a complete testing system including direct mechanical measurement and indirect parameter estimation,and verify the effectiveness and feasibility of these methods for ground testing of thrusters.[Methods]Four thrust measurement methods were developed:1)Modified NH-2 electronic push-pull force gauge(2 N range,0.001 N resolution)with a 5.5 cm metal target and 3D-printed bracket;2)Pendulum thrust meter using an eddy current displacement sensor(2 mV/μm sensitivity)to measure small displacements,with force analysis under small angles(<10°);3)Thrust calculation based on resonant cavity gas temperature(measured by WRe26 thermocouple,0-1800℃range)using adiabatic process and ideal gas equations;4)Thrust calculation based on resonant cavity pressure(measured by a precision pressure gauge)via derived formulas.Experiments used a 1500 W 2.45 GHz magnetron microwave source with helium as the working fluid,conducted under cold gas(microwave off)and discharge(microwave on)conditions.[Results]In cold gas experiments,thrust increased almost linearly with helium flow;push-pull force gauge and pendulum data were highly consistent,while temperature-and pressure-based calculated values were higher.In discharge experiments,thrust still increased with flow(though slower at high flow),specific impulse remained stable(with a slight drop at high flow),and temperature-and pressure-based values showed better consistency.All four methods performed well within the 0-600 mN thrust range,with indirect methods consistent with direct measurements.[Conclusions]The four methods effectively solve the spatial constraint issue.Direct measurements(push-pull force gauge,pendulum)are effective,and indirect calculations(temperature,pressure)are feasible.The modular design is particularly suitable for CubeSats,providing reliable,low-cost,and easy-to-implement solutions for micro thruster performance verification and optimization,with promising application prospects.关键词
微波电热推力器/推力测量/单摆法/推力计/等离子体Key words
microwave electric thruster/thrust measurement/pendulum method/thrust gauge/plasma分类
物理学引用本文复制引用
袁野,郭成,鲍浩然,金凡亚..微波等离子体推力器微小推力测试研究[J].强激光与粒子束,2025,37(12):36-44,9.基金项目
西物创新行动项目(202301XWCX003) (202301XWCX003)
