Effect of particle size distribution on strength of precipitation-hardened alloys

Aging of precipitation hardened alloys results in particle coarsening, which in turn affects the strength. In this study, the effect of particle size distribution on the strength of precipitation-hardened alloys was considered. To better represent real alloys, the particle radii were distributed usi...

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Veröffentlicht in:	Journal of materials research 2004-09, Vol.19 (9), p.2765-2773
Hauptverfasser:	Kulkarni, A.J., Krishnamurthy, K., Deshmukh, S.P., Mishra, R.S.
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Sprache:	eng
Schlagworte:	Computer simulation Dislocations Strength
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container_title	Journal of materials research
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creator	Kulkarni, A.J. Krishnamurthy, K. Deshmukh, S.P. Mishra, R.S.
description	Aging of precipitation hardened alloys results in particle coarsening, which in turn affects the strength. In this study, the effect of particle size distribution on the strength of precipitation-hardened alloys was considered. To better represent real alloys, the particle radii were distributed using the Wagner and Lifshitz and Slyozov (WLS) particle size distribution theory. The dislocation motion was simulated for a range of mean radii and the critical resolved shear stress (CRSS) was calculated in each case. Results were also obtained by simulating the dislocation motion through the same system but with the glide plane populated by equal strength particles, which represent mean radii for each of the aging times. The CRSS value with the WLS particle distribution tends to decrease for lower radii than it does for the mean radius approach. The general trend of the simulation results compares well with the analytical values obtained using the equation for particle shearing and the Orowan equation.
doi_str_mv	10.1557/JMR.2004.0364
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Mater. Res</addtitle><description>Aging of precipitation hardened alloys results in particle coarsening, which in turn affects the strength. In this study, the effect of particle size distribution on the strength of precipitation-hardened alloys was considered. To better represent real alloys, the particle radii were distributed using the Wagner and Lifshitz and Slyozov (WLS) particle size distribution theory. The dislocation motion was simulated for a range of mean radii and the critical resolved shear stress (CRSS) was calculated in each case. Results were also obtained by simulating the dislocation motion through the same system but with the glide plane populated by equal strength particles, which represent mean radii for each of the aging times. The CRSS value with the WLS particle distribution tends to decrease for lower radii than it does for the mean radius approach. 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title	Effect of particle size distribution on strength of precipitation-hardened alloys
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