Improving the RF Performance of Ceramics Using Laser Assisted Machining

Authors : Emre GUNGOR, Ebrar OZBEK, Seymur SHUKUROV, Orhan ÇAKIR

Pages : 93-100

View : 18 | Download : 10

Publication Date : 2020-12-01

Article Type : Research Paper

Abstract :The radio frequency insert ignore into journalissuearticles values(RF); performance of military missiles depends largely on the dimensional tolerances of the ceramic radome insert ignore into journalissuearticles values(Si3N4, Mullit, Al203); in the missile. Small deviations and differences in precise tolerances on both the inner and outer surface of the radome affect the insertion loss of the radome wall, which has a negative impact on the RF performance of the missile. When these effects are taken into consideration, it is seen that surface sensitivity and surface integrity are important parameters in the machining process of ceramics. Ceramics are difficult to process with conventional processes because they are hard and brittle, as well as high costs. The current method for machining ceramic radome surfaces is the type of machining made with conventional CNC machines using a special cutting tool and cooling system. In this study, laser assisted machining insert ignore into journalissuearticles values(LAM); technique was proposed to overcome the disadvantages and reduce the surface roughness. While the approximate loss of insertion value for ceramic radomes produced by conventional methods is around 2.5 dB, it was predicted that this value can be obtained around 1.5 dB by laser assisted processing which is one of the hybrid manufacturing methods. Computer aided simulations were performed based on the surface roughness values obtained from the surface roughness measurements made after both machining methods. From the results of these simulations, it is seen that laser reinforced processing method has a significant contribution to the signal transmission efficiency of ceramic radomes.
Keywords : Hybrid Manufacturing, Laser Assisted Machining LAM, Ceramics, RF Performance, Insertion Loss Simulation