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Sains
Malaysiana 41(7)(2012): 901–906
Molecular
Dynamics Modeling and Simulations of Carbon Nanotube-based Gears
(Permodelan Dinamik Molekul dan Simulasi
Gear Berasaskan Nanotiub Karbon)
Yeak Su Hoe*,
Institut Kajian Sains Fundamental Ibnu
Sina
Universiti Teknologi Malaysia, 81300 UTM Skudai, Johor, Malaysia
Che Lokman Jaafar Department of Mathematical Science, Faculty of Science
Universiti Teknologi Malaysia
81300 UTM Skudai, Johor Malaysia
Ng Teng Yong
School of Mechanical and Aerospace Engineering, Nanyang Technological University
50 Nanyang Avenue, Singapore 639798
Diserahkan: 14 Januari 2011 / Diterima:
2 Februari 2012
ABSTRACT
A
molecular dynamics (MD) modeling method was applied to
investigate the properties of carbon nanotube-based gears (CNT gears). The Brenner’s reactive hydrocarbon potential was
used in order to calculate the short range interatomic forces. The
Lennard-Jones 6-12 (LJ) was used to calculate the long range
van der Waals potential for intermolecular interactions between gears. One gear
was powered by forcing the atoms near the end of the first CNT to rotate, and a second gear was allowed to rotate by
keeping the atoms near the end of second CNT constrained
to a cylinder. We used the hybrid minimization to simulate the CNT-gears by coupling the unconstraint conjugate gradient
minimization with the one-dimensional minimization, Brent’s method. The hybrid
minimization was successfully implemented by introducing two regions in CNT gear. The switch function will affect the smoothness of the
gear rotation. The switch function also affects the minimization process where
simulation time will be reduced.
Keywords:
Carbon nanotube-based gears; hybrid minimization; modeling; molecular
simulation
ABSTRAK
Permodelan
dinamik molekul telah dijalankan ke atas gear nanotiub karbon (CNT). Potensi Brenner jenis hidrokarbon telah digunakan dalam pengiraan
julat pendek daya antara atom. Lennard-Jones 6-12 digunakan dalam julat
jauh potensi van der Waals untuk interaksi antara molekul dengan roda gigi. Gear tiub pertama diberi kuasa berdekatan dengan pinggir tiub
supaya berputar dan gean kedua dibenarkan berputar pada paksi yang ditetapkan. Kami gunakan teknik minimum hibrid untuk simulasi gean CNT dengan
bergading dengan minimum tanpa kekangan jenis kecerunan konjugat dan kaedah
Brent. Minimum hibrid telah berjaya digunakan dengan bantuan dua
bahagian dalam gear CNT. Fungsi suis didapati memberi kesan dalam kelicinan putaran gear. Fungsi suis juga berjaya memendekkan masa simulasi dalam proses minimum.
Kata kunci: Gear nanotiub karbon;peminimuman hibrid; permodelan; simulasi molekul
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*Pengarang untuk surat-menyurat; email: s.h.yeak@utm.my
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