Özet:

Avionic boxes which used in the aviation industry are systems that contain elements such as processor, sensor and cabling. These systems, which require high strength and lightness, can be manufactured from copper, aluminum and different types of composite materials. In this study, thermal analysis of aluminum and nanocomposite materials used in the manufacture of avionic boxes were made using an external cooling unit and their effects on cooling were compared. The thermal performances of the materials were carried out in two stages. In the first stage, when the heat generated in the box is homogeneously distributed, the thermal performances of the two materials are calculated and compared, while in the second stage, the instruments that cause the thermal load are concentrated on a single wall and calculations are made. Considering the results obtained in the analysis, the highest temperature in the box made of aluminum material for 75 oC outer temperatures under homogeneous heat distribution conditions was 112.9 oC, while this temperature value decreased to 96.8 oC when VGCF nanocomposite with epoxy matrix was used instead of aluminum. In the second stage, in the condition that the thermal load is concentrated on a single wall, calculations were made for the outer temperature of 75 oC, and a temperature value of 99.1 oC in the aluminum box and 92.2 oC in the nanocomposite box was obtained. This shows that the material update improved by 14.3% in the homogeneous heat distribution condition and 7% in the non-homogeneous heat distribution condition. A thermoelectric cooler with a capacity of 800 W was used in all stages of the analysis. In another analysis, it was investigated that which capacity of cooler is used in the box made of aluminum will give the same result as the nanocomposite material. In order to obtain a temperature of 96.8 oC instead of 112.9 oC in an aluminum box in homogeneous heat distribution, it is necessary to increase the cooler capacity from 800 W to 1100 W. In the concentrated condition on a single wall, it was determined that a thermoelectric cooler with a capacity of 900 W should be used to reduce the temperature of the aluminum box from 99.1 oC to 92.2 oC. This shows that an efficiency of 37.5% in homogeneous heat distribution conditions and 12.5% in non-homogeneous heat distribution is achieved. Therefore, it can be said that it is more appropriate to use nanocomposite materials instead of aluminum in avionic boxes in the aviation industry, where low energy consumption and low weight features have critical importance.

Anahtar Kelimeler: