Experimental and numerical investigation of the effect of metal powder particle size on the physical and mechanical properties of the components produced by high rate dynamic powder compaction
1
Young researchers and Elite Club, Ahar Branch, Islamic Azad University, Ahar, Iran
2
Department of Mechanical Engineering, Ahar Branch, Islamic Azad University, Ahar, Iran
Abstract
The effect of size distribution of metal powder particles on the density and strength of fabricated parts under high velocity impact loading has been investigated in this paper. Experiments have been performed on aluminum powder using gas gun apparatus. To do so, pure aluminum powder with three different sizes has been compacted and both density and strength of compacts have been compared. The obtained results show that the coarsest particle size, has the maximum value of density. To evaluate the effect of mixing powder particles with different size distributions on properties of compacts, three initial powders with different weight ratios have been mixed together. The obtained results show that the density of composite part increases as the content of powder with greater particle sizes increases, but this has no particular effect on strength. Next, a mathematical modelling using neural network method has been presented to predict the density of compacts. Through this method, obtained experimental values are used as input by the neural network method. Comparison of values predicted using this model with those obtained by experiments, represents an appropriate level of adjustment.
Mohammadkhani Haji Khajehloo, B., & Meshkabadi, R. (2020). Experimental and numerical investigation of the effect of metal powder particle size on the physical and mechanical properties of the components produced by high rate dynamic powder compaction. Iranian Journal of Manufacturing Engineering, 6(9), 45-53.
MLA
Behzad Mohammadkhani Haji Khajehloo; Ramin Meshkabadi. "Experimental and numerical investigation of the effect of metal powder particle size on the physical and mechanical properties of the components produced by high rate dynamic powder compaction". Iranian Journal of Manufacturing Engineering, 6, 9, 2020, 45-53.
HARVARD
Mohammadkhani Haji Khajehloo, B., Meshkabadi, R. (2020). 'Experimental and numerical investigation of the effect of metal powder particle size on the physical and mechanical properties of the components produced by high rate dynamic powder compaction', Iranian Journal of Manufacturing Engineering, 6(9), pp. 45-53.
VANCOUVER
Mohammadkhani Haji Khajehloo, B., Meshkabadi, R. Experimental and numerical investigation of the effect of metal powder particle size on the physical and mechanical properties of the components produced by high rate dynamic powder compaction. Iranian Journal of Manufacturing Engineering, 2020; 6(9): 45-53.
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