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Structure, Plastic Deformation of Polyethylene: A Molecular Dynamics Method
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作者 Dung Nguyen Trong tuan tran quoc +2 位作者 Hue Dang Thi Minh Cuong Nguyen Chinh Van Duong quoc 《Advances in Materials Physics and Chemistry》 2020年第6期125-150,共26页
<span style="white-space:normal;">This paper studies the influence factors of atoms number (N) at temperature (T) and after annealing time (t) on the structure shape and the plastic deformation of Poly... <span style="white-space:normal;">This paper studies the influence factors of atoms number (N) at temperature (T) and after annealing time (t) on the structure shape and the plastic deformation of Polyethylene C</span><sub style="white-space:normal;">2</sub><span style="white-space:normal;">H</span><sub style="white-space:normal;">4</sub><span style="white-space:normal;"> (PE) by the Molecular Dynamics (MD) method with Dreading pair interaction, cyclic boundary conditions and plastic deformation of Polyethylene (PE) be done by stretching method according to the z-axis. The results of structure, plastic deformation of PE are analyzed through size (l), the total energy of the system (E</span><sub style="white-space:normal;">tot</sub><span style="white-space:normal;">), shape and associated energy (E</span><sub style="white-space:normal;">bond</sub><span style="white-space:normal;">), angular binding energy (E</span><sub style="white-space:normal;">angle</sub><span style="white-space:normal;">), energy E</span><sub style="white-space:normal;">dihedral</sub><span style="white-space:normal;">, interactive energy Vander Walls (E</span><sub style="white-space:normal;">non-bonding</sub><span style="white-space:normal;">). When increasing N, t leads to the number of structural units of Face-Centred Cubic (FCC), Body-Centered Cubic (BCC) and Hexagonal Close-Packed (HCP) increasing, but Amorphous (Amor) decreases while the angle between the atoms is a constant corresponding to 109.5</span>&#176;<span style="white-space:normal;">. Besides, the length of the link (r) increases from r = 1.529 </span>&#197;<span style="white-space:normal;"> to r = 1.558 </span>&#197;<span style="white-space:normal;"> while the plastic deformation energy of PE gets an enormous change and the bonding angle at 109.27</span>&#176;<span style="white-space:normal;">. The length of the link r = 1.529 </span>&#197;<span style="white-space:normal;"> and the size (l) of the PE material increase from l = 3.73 nm to l = 6.63 nm while the total energy of system (E</span><sub style="white-space:normal;">total</sub><span style="white-space:normal;">) decreases from E</span><sub style="white-space:normal;">total</sub><span style="white-space:normal;"> = <span style="white-space:nowrap;">&#8722;</span>1586 eV to E</span><sub style="white-space:normal;">total</sub><span style="white-space:normal;"> = <span style="white-space:nowrap;">&#8722;</span>7891 eV with the transition temperature is T = 103 K. Increasing the number of atoms leads to increasing the length of the link. The total energy E</span><sub style="white-space:normal;">total </sub><span style="white-space:normal;">of the system decreases, but the number of structural units in FCC, HCP, BCC and Amor increase, which leads to the length of the link increases, the E</span><sub style="white-space:normal;">total</sub><span style="white-space:normal;"> decreases, and there is a change in the plastic deformation characteristics of PE. In contrast, increasing T leads to the plastic deformation increases, and PE moves from the amorphous state to the liquid state. The obtained results are very significant for future experimental research.</span> 展开更多
关键词 Molecular Dynamics Atoms Number Annealing Time POLYETHYLENE Plastic Deformation
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