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Engineering Mathematics
Review of Viscous Flows
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The National Science Foundation
ME 437 The National Science Foundation
 Particle Adhesion
Van der Waals Force | JKR and Other Adhesion Models | Particle Adhesion & Removal | Effects of Charge | Effect of Humidity | Ultrasonic and Megasonic Cleaning

London-van der Waals Force

Hamaker Constants for Dissimilar Materials

 Table 3. Values of Lifshitz -van der Waals Constant  for some materials (Visser, 1976).

Homogenous Combinations

Combinations

Vacuum

Water

Au-Au

14.3

9.85

Ag-Ag

11.7

7.76

Cu-Cu

8.03

4.68

Diamond-Diamond

8.6

3.95

Si-Si

6.76

3.49

Ge-Ge

8.36

4.66

MgO-MgO

3.03

0.47

KCl-KCl

1.75

0.12

KBr-KBr

1.87

0.18

KI-KI

1.76

0.20

Al2O3-Al2O3

4.68

1.16

CdS-CdS

4.38

1.37

H2O-H2O

1.43

-

Polystyrene-Polystyrene

1.91

0.11


 Table 4. Values of Lifshitz -van der Waals Constant  for some materials (Visser, 1976).

Heterogeneous Combinations

Combinations

Water

Polystyrene

Au-Ag

-

8.27

Au-Cu

6.41

5.93

Au-Diamond

6.11

5.45

Au-Si

5.32

4.70

Au-Ge

6.50

5.93

Au-MgO

1.99

1.25

Au-KBr

0.73

0.0

Au-Al2O3

-

2.60

Au-CdS

-

2.65

Au-Polystyrene

0.72

-



Dr. Goodarz Ahmadi | Turbulence & Multiphase Fluid Flow Laboratory | Department of Mechanical & Aeronautical Engineering
Copyright © 2002-2005 Dr. Goodarz Ahmadi. All rights reserved.
Potsdam, New York, 13699
ahmadi@clarkson.edu