Friction force microscopy as a probe of molecular relaxation on polymer surfaces

Greg Haugstad; Wayne L. Gladfelter; Elizabeth B. Weberg; Rolf T. Weberg; Richard R. Jones

doi:10.1007/BF00209780

Friction force microscopy as a probe of molecular relaxation on polymer surfaces

Greg Haugstad, Wayne L. Gladfelter, Elizabeth B. Weberg, Rolf T. Weberg, Richard R. Jones

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Abstract

The scan-velocity dependence of friction force microscopy (FFM) is characterized on nominally-dry gelatin films and related to the rate dependence of dissipative molecular relaxations. For a range of scanning-parameter values the measurement itself affects the frictional characteristics of the films: imparted frictional energy populates molecular conformations from which more dissipative relaxations occur. Variations in frictional dissipation tens of nanometers in lateral size are quantified as histograms of the number of image pixels versus frictional force. Histogram breadth and symmetry apparently reflect the energy dispersion of molecular relaxations.

Original language	English (US)
Pages (from-to)	253-264
Number of pages	12
Journal	Tribology Letters
Volume	1
Issue number	2-3
DOIs	https://doi.org/10.1007/BF00209780
State	Published - Nov 1995

Keywords

force microscopy
friction
gelatin
glass
network
polymer
relaxation

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title = "Friction force microscopy as a probe of molecular relaxation on polymer surfaces",

abstract = "The scan-velocity dependence of friction force microscopy (FFM) is characterized on nominally-dry gelatin films and related to the rate dependence of dissipative molecular relaxations. For a range of scanning-parameter values the measurement itself affects the frictional characteristics of the films: imparted frictional energy populates molecular conformations from which more dissipative relaxations occur. Variations in frictional dissipation tens of nanometers in lateral size are quantified as histograms of the number of image pixels versus frictional force. Histogram breadth and symmetry apparently reflect the energy dispersion of molecular relaxations.",

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author = "Greg Haugstad and Gladfelter, {Wayne L.} and Weberg, {Elizabeth B.} and Weberg, {Rolf T.} and Jones, {Richard R.}",

year = "1995",

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AU - Haugstad, Greg

AU - Gladfelter, Wayne L.

AU - Weberg, Elizabeth B.

AU - Weberg, Rolf T.

AU - Jones, Richard R.

PY - 1995/11

Y1 - 1995/11

N2 - The scan-velocity dependence of friction force microscopy (FFM) is characterized on nominally-dry gelatin films and related to the rate dependence of dissipative molecular relaxations. For a range of scanning-parameter values the measurement itself affects the frictional characteristics of the films: imparted frictional energy populates molecular conformations from which more dissipative relaxations occur. Variations in frictional dissipation tens of nanometers in lateral size are quantified as histograms of the number of image pixels versus frictional force. Histogram breadth and symmetry apparently reflect the energy dispersion of molecular relaxations.

AB - The scan-velocity dependence of friction force microscopy (FFM) is characterized on nominally-dry gelatin films and related to the rate dependence of dissipative molecular relaxations. For a range of scanning-parameter values the measurement itself affects the frictional characteristics of the films: imparted frictional energy populates molecular conformations from which more dissipative relaxations occur. Variations in frictional dissipation tens of nanometers in lateral size are quantified as histograms of the number of image pixels versus frictional force. Histogram breadth and symmetry apparently reflect the energy dispersion of molecular relaxations.

KW - force microscopy

KW - friction

KW - gelatin

KW - glass

KW - network

KW - polymer

KW - relaxation

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Friction force microscopy as a probe of molecular relaxation on polymer surfaces

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