Abstract
Mechanical strength and thermal properties may limit the usage of an electronic component in the high-tech industry. This paper investigated the influence of using CuO nanoparticles in a radial configuration microchannel of a disk from the mechanical and thermal points of view. In this regard, a disk under thermal and mechanical loading had been considered. The cooling setup consisted of a radial configuration microchannel with a constant fluid volume. Water was used as the base fluid and CuO particles were used as the coolant fluid. The results showed that the use of CuO nanoparticles would reduce the maximum disk temperature, the maximum thermal stress, and the maximum stress, as well as the maximum deformation on the body. The increasing number of channels would increase the maximum stress in the object as well. Another remarkable point was that increasing the nanoparticles did not necessarily lead to a more uniform heat distribution in the disk.
Highlights
One of the crucial parameters in technology advancement is the efficiency of electronic components.One of the main limitations affecting the performance of electronic components is transferring the heat from them
Due to the increasing motions of the nanoparticles with temperature, which was a result of the Brownian effect, the thermal conductivity of the nanofluid depended mainly on the temperature
The influence of using dispersed CuO nanoparticles in H2 O flowing through a network radial the microchannels thedispersed mechanical andnanoparticles thermal points was investigated
Summary
One of the crucial parameters in technology advancement is the efficiency of electronic components. In the recent three decades, the use of various nanoparticles and their effectiveness on heat transfer has been studied and analyzed by various researchers [12,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32] Another challenge in the design of electronic components in advanced technologies, such as electronic packages and structures of future air vehicles industries, is the weight and strength restrictions of the element [33]. The challenge is increasing the strength of the element without increasing its weight In these technologies, because of the high rate of heat transfer, the thermal stresses play a crucial role in the component strength.
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