Study of friction between  hydrocarboxylic acid Langmuir-Blodgett films and its mechanism using molecular dynamics simulation

Zhang Zhao-Hui; Han Kui; Li Hai-Peng; Tang Gang; Wu Yu-Xi; Wang Hong-Tao; Bai Lei

doi:10.7498/aps.57.3160

Abstract
Molecular dynamics simulation has been used to study the friction and structure mechanism of Langmuir-Blodgett films of hydrocarboxylic acid (C15H31COOH) deposited on the SiO2 substrates at different sliding velocities. The results show that, for a certain monolayer, the shear pressure between the monolayers increases when the sliding speed is below 60m/s and decreases when the sliding speed exceeds 60m/s. The molecular tilt angle decreases as the velocity increases. The molecular clusters formed in the monolayers by the hydrogen-bond caused the long shear periods, but there is no hydrogen-bond between the monolayers.

Keywords:
molecular dynamic simulation /

Langmuir-Blodgett films /

nano-tribology /

hydrogen bond
Authors and contacts
Zhang Zhao-Hui,

Han Kui,

Li Hai-Peng,

Tang Gang,

Wu Yu-Xi,

Wang Hong-Tao,

Bai Lei

1.
中国矿业大学理学院，徐州 221008
References

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Vol. 57, Issue 5 - 2008-03-05

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Study of friction between hydrocarboxylic acid Langmuir-Blodgett films and its mechanism using molecular dynamics simulation

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Study of friction between hydrocarboxylic acid Langmuir-Blodgett films and its mechanism using molecular dynamics simulation

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