Awareness and Localization of Explosives-Related Threats ...A Department of Homeland Security Center...
Transcript of Awareness and Localization of Explosives-Related Threats ...A Department of Homeland Security Center...
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Awareness and Localization of
Explosives-Related Threats (ALERT)
A Department of Homeland Security Center of Excellence
This material is based upon work supported by the U.S. Department of Homeland Security, Science and Technology Directorate, under Award 2010-
ST-108-LR0003. The views and conclusions contained in this document are those of the authors and should not be interpreted as necessarily
representing the official policies, either expressed or implied of the U.S. Department of Homeland Security.
Understanding Contact-Based Sampling for Explosives
Detection
Steve Beaudoin, School of Chemical Engineering, Purdue University
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• Fundamental science and engineering
understanding can improve the effectiveness of
swabs for contact-based sampling
• It is possible to understand quantitatively
phenomena that control explosives residue
adhesion to substrates and swabs • Humidity
• Composition
• Deformation
• Topography
• Size
• Shape
Conclusions
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• Understand adhesion between explosives
residues and swabs or substrates
• Use understanding to help guide development of
improved swabbing methods/materials
• Parameters considered • Residue composition
• Composites, pure explosives
• Substrate composition
• 6 representative surfaces provided by DHS
• Swab composition
• 4 common swab types provided by DHS
• Ambient conditions
• Primarily relative humidity (RH)
Research Goals
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Fundamentals – Explosives Particle Adhesion
Mass density within ~25 nm of point of contact controls adhesion
Higher mass density = higher adhesion
Adhesion may be controlled by particle or surface
Low mass
density near
contact
High mass
density near
contact
Adhesive
failure
Cohesive
failure
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Fundamentals – Explosives Particle Adhesion
Adhesion may be controlled by particle or surface
High mass density near contact
Low mass density near contact
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Fundamentals – Explosives Particle Adhesion
Adhesion may be controlled by particle or surface
Cohesive failure
Adhesive failure
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Adhesion between Explosives and Aluminum
1. Micron-scale particles of PETN, RDX,
and TNT mounted on AFM
cantilevers
2. AFM used to measure adhesion
against aluminum coated with clear-
coat (acrylic melamine), white–coat
(polyester acrylic melamine), and
military coating Clear-coated aluminum
White paint with clear-coated aluminum Military coating
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Adhesion between Explosives and Aluminum
RDX PETN
TNT Force (nN)
RDX PETN TNT
Clear Coating 63 ± 11 47 ± 12 91 ± 15
White Coating 110 ± 24 32 ± 8 31 ± 5
Military Finish 26 ± 10 26 ± 12 16 ± 7
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Adhesion Influenced by Particle Size
For a given mass density at interface, increasing
the interface size increases the adhesion force
We eliminate effect of particle size (i.e., to see the
intrinsic adhesion force)
Evaluate force/(particle radius) for spheroids
Smaller
interfacial
region =
smaller force
Larger
interfacial
region =
larger force
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Normalized Adhesion Forces
Explosives particles modeled as ‘effective
spheroids’ with measured roughness on surface
Surface Particle Radius of Curvature of
‘Effective’ Spheroid (μm)
Clear coated Al
RDX – 1 1.4
PETN – 1 0.6
TNT – 1 3.6
White-coated Al
RDX – 2 2.5
PETN – 2 0.4
TNT – 2 1.3
Military
RDX – 1 1.4
PETN – 1 0.6
TNT – 1 3.6
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Normalized Adhesion Forces
Clear-coat and White-coat
Characteristics of particle surface control the interaction
Particles very rough on nano-scale
Military finish
Topography (micron-scale) of the military finish controls the interaction
0
10
20
30
40
50
60
70
80
RDX PETN TNT
Clear Coating
White Coating
Military Finish
RD
X –
1
PE
TN
– 1
TN
T –
1
TN
T –
1
RD
X –
1
PE
TN
– 1
PE
TN
– 2
RD
X –
2
TN
T –
2
Particle R.O.C. Ratio
(ROC 1)/(ROC 2)
Length
Scale
RDX 0.6
0.5 to
3.5 mm PETN 1.5
TNT 2.8
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Describing Roughness Effects
• Measured forces in range of model prediction in nearly all cases
Geometry
Surface Roughness +
Model Inputs
Surface Morphology
Material properties
Computation
vdW Force
Model Prediction
Distribution of
adhesion forces
10 nm
Particle
φ φ
Substrate
Silicon nitride particle (~3mm) on TaOxNy
in DI water
F, av-Measured: 2.1 nN; F, av-Predicted: 2.2 nN
4A
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Describing Roughness Effects
Classical models for van der Waals forces between a cylinder
and a plate
A132 = Hamaker constant (fcn of composition of materials and medium)
R = cylinder radius
D = cylinder-plate separation distance
In Beaudoin model, when roughness added to equivalent
spheroids, Hamaker constant is adjusted to predict
distributions
3
2
132
6D
RAFvdW
Aceffx1021 (J)
RDX PETN TNT
Clear Coating 400 300 225
White Coating 425 300 225
Military Finish 800 800 450
Clear and white coatings have
similar composition effects
When present, military finish
topography dominates
interactions
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Effect of Humidity on Adhesion
0
5
10
15
20
25
30
35
15 25 35 45 55 65
Fo
rce
(n
N)
RH (%)
Stainless
Steel
Perspex
Measured adhesion between silicon nitride cantilever and surfaces
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Effect of Humidity on Adhesion
0
5
10
15
20
25
30
35
15 25 35 45 55 65
Fo
rce
(n
N)
RH (%)
Stainless
Steel
Perspex
• At most RH levels, ‘bulk’ water on a surface does not exist
• Water at lower RH (< 50 - 55%) levels is molecularly-adsorbed, sub-continuum • No surface tension, but does support H-bonding
Bulk water Molecularly-adsorbed water
~ 50
H-bonds
# H-bonds ↑
# H-bonds and
separation
distance ↑ separation
distance ↑
bulk water
forms
On
hydrophilic
stainless
steel
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Effect of Humidity on Adhesion
• Metal, hydrophilic surfaces show adhesivity increase as RH rises below 35% • Due to adsorbed molecular water
• Show a decrease from ~35 - ~55% • Due to water forming a barrier to close contact
• Adhesion increases
again as RH rises
above 55% • Due to bulk
water drops on
surface
For hydrophilic
surfaces, one would
expect significant
changes in adhesion
when RH changes at
low levels 0.00
5.00
10.00
15.00
20.00
25.00
30.00
35.00
0.0 20.0 40.0 60.0 80.0
Ad
he
siv
e F
orc
e (
nN
)
Relative Humidity (%)
White-coated
Aluminum
Stainless Steel
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Effect of Humidity on Adhesion
• Hydrophobic surfaces show minor changes in adhesivity RH < ~50% • Due to minimal tendency to adsorb molecular water
• Show larger increases above 55% • Due to bulk water drops on surface
For hydrophobic
surfaces, one
would expect
insignificant
changes in
adhesion when
RH changes at
low levels 0.00
5.00
10.00
15.00
20.00
25.00
30.00
35.00
0.0 20.0 40.0 60.0
Ad
he
siv
e F
orc
e (
nN
)
Relative Humidity (%)
Plastic (Rough)
Teflon
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Ongoing Work
• Extend current studies to describe composite
explosive materials • C4, SEMTEX, ANFO
• Deformation during residue removal key to overall process
• Develop improved swab materials based on
mechanical properties of swabs and residues
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Acknowledgements
U.S. Department of Homeland Security, Science
and Technology Directorate sponsored this work
under agreement 2010-ST-108-LR0003