Extracting nonlinear material parameters from AFM indentation data' - PowerPoint PPT Presentation

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Extracting nonlinear material parameters from AFM indentation data'

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Extracting nonlinear material parameters from AFM indentation data. S Tripathy# EJ Berger ... Atomic Force Microscopy. Cellular Biomechanics. Cellular Biomechanics ... – PowerPoint PPT presentation

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Title: Extracting nonlinear material parameters from AFM indentation data'


1
Extracting nonlinear material parameters from AFM
indentation data.
S Tripathy EJ Berger K Vemaganti
University of Virginia, Charlottesville, VA.
University of Cincinnati, Cincinnati, OH.
2
Cellular Biomechanics
  • Small Scale Cell-Biomechanics, (Zhu et. al. ,
    Humphrey et. al.)
  • Experimental Methods used today
  • Cell Poking (Daily et. al.)
  • Micropipette Aspiration (Thoumine et. al.)
  • Magnetic Twisting Cytometry (Chen et. al.)
  • Optical Tweezers (Hénon et. al.)
  • AFM (Radmacher et. al.)
  • Atomic Force Microscopy.

3
Cellular Biomechanics
  • Hertz Contact Theory ( Hertz et. al. , Radmacher
    et. al. , Hassan et. al.)
  • Non-Hertzian Effects
  • Finite Thickness Hayes et. al., Dimitriadis et.
    al.
  • Large Strains Costa et. al., Simha et. al.
  • Material Systems
  • Cells
  • Bio-Gels like PVA, Agarose etc.

4
AFM Imaging and Indentation Tests
  • 1 Agarose Gel.
  • Standard V-Shaped cantilever (Nominal k 0.06
    N/m)
  • PicoForce Scanner
  • Contact Mode
  • Avg. Roughness
  • 100 nm

Source Mikromasch
5
AFM Indentation Tests
Noise 30 - 40 pN
? 0.5
E 20kPa
6
FE Reconstructions
Boundary Conditions
Stress Profile
Source Abaqus
7
Material Modeling
  • Hyperelastic Material Elastic materials for
    which the work done by the stresses in
    independent of the load path Strain energy
  • Exponential Model
  • E 6b1b2 ( Beatty et. Al. , Costa et. al.)
  • Parameter Study
  • b1 1, 5, 10, 50, 100 x 109 Pa
  • b2 0.1, 0.25, 0.5, 0.75, 1.0, 2.5,
    5.0,7.5,10.0
  • R 125, 250, 500, 1000 nm

8
Material Modeling
  • Softening and Hardening
  • Indentation Dependent Stiffness

9
Indentation Dependent Stiffness
  • Curve fit over 3 points
  • (Moving Window Sense)
  • Linear correction to the stiffness
  • Linear dependence of the slope, m on the
    parameter, b1

10
Extraction of parameters
  • A 5th Order polynomial proposed for g(b2)
  • Error Function used
  • fminsearch in MATLAB

11
Extraction of parameters
Max error b1 12 b2 14
12
Experimental Data
  • 3 different indentation ranges
  • 1µm indenter radius
  • 1 Agarose
  • Contact Mode
  • V-shaped tips
  • Extraction protocol on the data

13
Conclusion
  • Parameter Extraction Protocol tested on FE data.
  • Hyperelastic Material model for large scale
    deformation.
  • b1 is the elastic part and b2 controls the
    nonlinearity

Future Work
  • Extraction of parameters from AFM data on
    Agarose Gels.
  • Detailed parameter analysis
  • Effect of Gel Concentration and Indenter Radius
  • Thin Film and Substrate Effects.
  • Spin Coating
  • Diff Concentration
  • Indenter Radius
  • Contact point analysis.
  • Effect on Parameter ID

14
Thank You
15
Contact Point Analysis
16
Inverse FE Problem.
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