Molecular Dynamics Study on Lubrication Mechanism in Crystalline Structure between Copper and Sulfur
To clarify the nanosized mechanism of good lubrication in copper disulfide (Cu2S) crystal which is used as a sliding material, atomistic modeling of Cu2S is conducted and molecular dynamics (MD) simulations are performed in this paper. The interatomic interaction between atoms and crystalline struct...
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| Published in | Journal of materials Vol. 2015; pp. 1 - 13 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
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Hindawi Publishing Corporation
26.10.2015
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| Abstract | To clarify the nanosized mechanism of good lubrication in copper disulfide (Cu2S) crystal which is used as a sliding material, atomistic modeling of Cu2S is conducted and molecular dynamics (MD) simulations are performed in this paper. The interatomic interaction between atoms and crystalline structure in the phase of hexagonal crystal of Cu2S are carefully estimated by first-principle calculations. Then, approximating these interactions, we originally construct a conventional interatomic potential function of Cu2S crystal in its hexagonal phase. By using this potential function, we perform MD simulation of Cu2S crystal which is subjected to shear loading parallel to the basal plane. We compare results obtained by different conditions of sliding directions. Unlike ordinary hexagonal metallic crystals, it is found that the easy-glide direction does not always show small shear stress for Cu2S crystal. Besides, it is found that shearing velocity affects largely the magnitude of averaged shear stress. Generally speaking, higher velocity results in higher resistance against shear deformation. As a result, it is understood that Cu2S crystal exhibits somewhat liquid-like (amorphous) behavior in sliding condition and shear resistance increases with increase of sliding speed. |
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| AbstractList | To clarify the nanosized mechanism of good lubrication in copper disulfide (Cu
2
S) crystal which is used as a sliding material, atomistic modeling of Cu
2
S is conducted and molecular dynamics (MD) simulations are performed in this paper. The interatomic interaction between atoms and crystalline structure in the phase of hexagonal crystal of Cu
2
S are carefully estimated by first-principle calculations. Then, approximating these interactions, we originally construct a conventional interatomic potential function of Cu
2
S crystal in its hexagonal phase. By using this potential function, we perform MD simulation of Cu
2
S crystal which is subjected to shear loading parallel to the basal plane. We compare results obtained by different conditions of sliding directions. Unlike ordinary hexagonal metallic crystals, it is found that the easy-glide direction does not always show small shear stress for Cu
2
S crystal. Besides, it is found that shearing velocity affects largely the magnitude of averaged shear stress. Generally speaking, higher velocity results in higher resistance against shear deformation. As a result, it is understood that Cu
2
S crystal exhibits somewhat liquid-like (amorphous) behavior in sliding condition and shear resistance increases with increase of sliding speed. To clarify the nanosized mechanism of good lubrication in copper disulfide (Cu2S) crystal which is used as a sliding material, atomistic modeling of Cu2S is conducted and molecular dynamics (MD) simulations are performed in this paper. The interatomic interaction between atoms and crystalline structure in the phase of hexagonal crystal of Cu2S are carefully estimated by first-principle calculations. Then, approximating these interactions, we originally construct a conventional interatomic potential function of Cu2S crystal in its hexagonal phase. By using this potential function, we perform MD simulation of Cu2S crystal which is subjected to shear loading parallel to the basal plane. We compare results obtained by different conditions of sliding directions. Unlike ordinary hexagonal metallic crystals, it is found that the easy-glide direction does not always show small shear stress for Cu2S crystal. Besides, it is found that shearing velocity affects largely the magnitude of averaged shear stress. Generally speaking, higher velocity results in higher resistance against shear deformation. As a result, it is understood that Cu2S crystal exhibits somewhat liquid-like (amorphous) behavior in sliding condition and shear resistance increases with increase of sliding speed. |
| Author | Takahashi, Yoshimasa Saitoh, Ken-ichi Takuma, Masanori Chin, Ryuketsu Sato, Tomohiro |
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| Cites_doi | 10.1126/science.141.3577.276 10.1021/jp9069866 10.2138/am.2005.1518 10.1299/jsmea.47.54 10.4236/wjnse.2012.24025 10.1557/opl.2013.563 10.1126/science.1204713 10.1016/s0022-3697(03)00272-5 10.1103/physrevlett.113.036101 10.1103/physrevb.85.115133 10.2320/matertrans.d-mra2008841 10.1103/physrevlett.108.085703 10.1103/physrevb.76.195202 |
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| Copyright | Copyright © 2015 Ken-ichi Saitoh et al. |
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| Editor | Fang, Te-Hua |
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| Snippet | To clarify the nanosized mechanism of good lubrication in copper disulfide (Cu2S) crystal which is used as a sliding material, atomistic modeling of Cu2S is... To clarify the nanosized mechanism of good lubrication in copper disulfide (Cu 2 S) crystal which is used as a sliding material, atomistic modeling of Cu 2 S... |
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| Title | Molecular Dynamics Study on Lubrication Mechanism in Crystalline Structure between Copper and Sulfur |
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