In particular, the system undergoes three stages. At first stage the relaxation proceeds slowly so that the energy of system slightly decreases and the samples structure remains amorphous. Within second stage a structural transformation occurs which significantly changes PRDF and DCN for the relatively short time. The energy of the system is dropped considerably and the amorphous structure transforms into the crystalline. Finally, the crystalline sample undergoes the slow relaxation which reduces the energy of system and eliminates structural defects in crystal lattices. | July 8 2014 14 7 WSPC Guidelines-IJMPB S0217979214501550 International Journal of Modern Physics B Vol. 28 No. 23 2014 1450155 17 pages c World Scientific Publishing Company DOI S0217979214501550 Annealing study of amorphous bulk and nanoparticle iron using molecular dynamics simulation P. H. Kien M. T. Lan N. T. Dung and P. K. Hung Int. J. Mod. Phys. B . Downloaded from Department of Physics Thainguyen University of Education 20 Luong Ngoc Quyen Thainguyen Vietnam Department of Computational Physics Hanoi University of Technology 1 Dai Co Viet Hanoi Vietnam by Dr P H Kien on 07 14 14. For personal use only. phkien80@ Received 6 January 2014 Revised 2 May 2014 Accepted 8 May 2014 Published 19 June 2014 Annealing study of amorphous bulk and nanoparticle iron at temperatures from 500 K to 1000 K has been carried out using molecular dynamics MD simulations. The simulation is performed for models containing 104 particles Fe at both crystalline and amorphous states. We determine changes of the potential energy pair radial distribution function PRDF and distribution of coordination number DCN as a function of annealing time. The calculation shows that the aging slightly reduces the potential energy of system. This result evidences that the amorphous sample undergoes different quasi-equilibrated states during annealing. Similar trend is observed for nanoparticles sample. When the samples are annealed at high temperatures we observe the crystallization in both bulk and nanoparticle. In particular the system undergoes three stages. At first stage the relaxation proceeds slowly so that the energy of system slightly decreases and the samples structure remains amorphous. Within second stage a structural transformation occurs which significantly changes PRDF and DCN for the relatively short time. The energy of the system is dropped considerably and the amorphous structure transforms into the crystalline. Finally the crystalline .
