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1 article(s) from Ge, Shirong

Friction and durability of virgin and damaged skin with and without skin cream treatment using atomic force microscopy

Bharat Bhushan,
Si Chen and
Shirong Ge

Beilstein J. Nanotechnol. 2012, 3, 731–746, doi:10.3762/bjnano.3.83

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Figure 1: Histology of pig skin (photography reprinted from [7]) and rat skin (photography reprinted from [6]), and...

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Figure 2: (a) Load–displacement curves and (b) nanohardness and elastic modulus data for rat and pig skin.

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Figure 3: AFM topography maps and roughness profiles taken at arrows indicated for virgin rat skin, damaged s...

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Figure 4: (a) RMS roughness, (b) contact angle and (c) coefficient of friction on nanoscale and schematic car...

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Figure 5: Friction force as a function of normal load curves for virgin rat and pig skin.

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Figure 6: Effect of (a) velocity, (b) normal load, and schematic cartoons of tip–skin interaction, and (c) ef...

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Figure 7: Effect of the number of cycles on the coefficient of friction on the nanoscale for virgin rat skin,...

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Figure 8: Coefficient of friction and schematic cartoons of the tip–skin interaction on macroscale for virgin...

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Figure 9: Effect of (a) velocity, (b) normal load, and (c) number of cycles on the coefficient of friction on...

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Figure 10: AFM topography maps and roughness profiles taken at arrows indicated for virgin pig skin, damaged s...

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Figure 11: (a) RMS roughness, (b) contact angle, and (c) coefficient of friction on the nanoscale of virgin pi...

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Figure 12: Effect of (a) velocity, (b) normal load and (c) relative humidity on the coefficient of friction on...

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Figure 13: Effect of the number of cycles on the coefficient of friction on the nanoscale for virgin pig skin,...

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Figure 14: Coefficient of friction on macroscale for virgin pig skin, damaged skin, treated virgin skin and tr...

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Figure 15: Effect of (a) velocity, (b) normal load and (c) number of cycles on the coefficient of friction on ...

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Full Research Paper

Published 08 Nov 2012

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