关键词: 模拟计算, 宽频, 吸波性能, 吸波蜂窝, 夹层结构

Abstract: In this paper, a simulation calculation model of electrical properties of wave-absorbing honeycomb and honeycomb sandwich structural wave-absorbing composites with good computational accuracy was established. By the simulation calculation model, the effects of wave-absorbing honeycomb and microwave-transparent skin on electrical properties of honeycomb sandwich structural wave-absorbing composites were studied. The wide-band electrical properties of honeycomb sandwich structural wave-absorbing composites were optimized. The results show thatwave-absorbing properties of honeycomb sandwich structural wave-absorbing composites were first improved and then decreased with the increase of the dielectric properties of wave-absorbing honeycomb. While the dielectric properties of wave-absorbing honeycomb increased to the optimum balance of the electromagnetic matching and attenuation characteristics of the wave-absorbing honeycomb, the wave-absorbing properties were optimal. As the honeycomb height increased, the wave-absorbing properties at low frequency(1 GHz~2 GHz) were improved. And, the wave-absorbing properties at high frequency(8 GHz~18 GHz) improved firstly and then tended to be stable and no longer improved continuously. For the same microwave-transparent material, microwave-transparent skin with 1 mm thickness can meet both the requirements of wide-band electrical properties and bearing performance. With the reasonable design of gradient electrical structure, optimizing wide-band electrical properties of honeycomb sandwich structural wave-absorbing composites can be realized. The optimized honeycomb sandwich structural wave-absorbing composite has a high wide-band wave-absorbing property in the frequency range of 1 GHz~18 GHz.

Key words: simulation, wide-band, wave-absorbing property, wave-absorbing honeycomb, sandwich structure