![]() Experimental results prove that the enhanced nozzle has 5% higher efficiency against the original one. The rapid design and optimization of the nozzle are expected to adjust the material removal footprint of plasma process in metre-scale optical fabrication. This optimization approach is proven to provide an efficient design method of plasma nozzles for future processing activities. ![]() The enhanced nozzles are compared with the benchmark nozzle in all selection criteria. Computational fluid dynamics analysis of 55 models with different cross-sectional profiles highlights cases that can be used to enhance plasma figuring processes. The temperature and velocity of the plasma jet are studied both along the axis of the nozzle and onto the impinged substrate surface. throat size, depths of convergent and divergent parts) were developed to enhance the processing capability of the inductively coupled plasma torch. This study aims at identifying an optimal solution for the design of convergent-divergent nozzles discharging high-temperature plasma jets.
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