Materials that fight back R. Critchley, I. Corni, K. Stokes, J. Wharton, F. Walsh, R. Wood 22 April...
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Transcript of Materials that fight back R. Critchley, I. Corni, K. Stokes, J. Wharton, F. Walsh, R. Wood 22 April...
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Materials that fight back
R. Critchley, I. Corni, K. Stokes, J. Wharton, F. Walsh, R. Wood
22 April 2010 – TriboUK – Imperial College London
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Outline• Current problems
• Proposed solution
• The outer hierarchical coating
• Inner auxetic foam
• Where the project is heading
http://hermes52.deviantart.com/art/U-S-Army-Soldier-34508852
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Body armour: problems and requirements• Lightweight (now the body armour is 13 kg)
• Flexible wear and allowing mobility • Low cost
• Stop projectile penetration
• Diffuse the impact energy to reduce behind armour blunt trauma (BABT)
http://cn1.kaboodle.com/hi/img/2/0/0/c0/e/AAAAAhTx1z0AAAAAAMDr-A.jpg
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http://www.computerweekly.com/PhotoGalleries/235075/757_30_Hi-tech-body-armour.JPG
How it works
Hybrid Sandwich Structure
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Outer layer: a laminate composite structure to diffuse the energy of the impact and to resist to deeper penetrations
Armour substrate
Inner layer: auxetic foam structure acting as small airbags to protect the body from BABT
Schematic structure
1mm
5 mm
10 mm
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Outer hierarchical
coating
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The outer hierarchical coating
• It is well-known that biological materials present optimized structure and excellent mechanical properties.
• The challenge is to deposit a hierarchical hard and tough ceramic-metal multilayered coating that mimics nature (e.g. nacre (mother of pearl), mollusc shell and ancient fish armour).
• The initial coatings have been deposited by CVD (W3C and B13C2) and PVD (Ti-V-Zr and Ti-V-Zr nitride):
• CVD is a high temperature process (1000ºC for B13C2) and therefore just few substrate are compatible.
• PVD coatings can be deposited on CVD films but the opposite is not always true – e.g. we experienced decomposition of the PVD films in the atmosphere needed for CVD deposition.
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Nacre (mother of pearl)
• Nacre is a ceramic laminate composite made of aragonite tablet layers separated by thin layers of an organic material (polymer).
• Nacre resists impact by dissipating the impact energy through nano and micron cracks, plastic deformation and elastic responses.
Barthelat, et al. Experimental Mechanics 2007
Materials Research to Meet 21st Century Defence Needs, 2003.
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Vent gastropod shell
Ortiz et al. PNAS 2010.
• The hardness and Young modulus reported to be higher in the two external layers (with the inner layer presenting the higher value) and lower in the middle layer (ML).
• The outer layer (OL) behaves as a sacrificial layer and helps to dissipate the impact energy through localized micro-cracking and delamination.
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Ancient fish armour
Each layer had a specific deformation and energy dissipation mechanism:
•The stiff outer layer transferred the energy of an applied load to the layers below
•The stratified isopedine layer hinders deeper penetrations and prevents catastrophic cracking through micro-cracking in the sub-layers.
Bruet et al. Nature
Materials, 2008.
Young modulus and hardness increase (inside to outside of the armour)
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Improved ballistic performance of coated plates
Ozsahin and Tolun, Materials & Design 2010; Ozsahin and Tolun, Materials & Design, In Press.
• Özsahin and Tolun studied the ballistic performance against a high velocity (> 350 m/s) impact 9 mm bullet of aluminium alloy plates with and without 0.762 mm thick cobalt-molybdenum-chromium or Zirconia plasma spray coatings.
• Penetration depth on the front face of the plate and the bulging on the rear face of the plate were compared for plates with and without coatings.
• The coatings improved the ballistic resistance of the plates with an increase in non-perforating projectile velocity and a decrease in penetration depth and bulging.
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Inner auxetic foam
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Auxetic Materials – What are they ?
• Conventional materials have a positive Poisson’s ratio
• Auxetic materials have a negative Poisson’s ratio - grow fatter when stretched
Evans and Alderson, Advanced Materials, 2000.
Poisson’s Ratio = _ Change in X Change in Y
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Auxetic Materials - Background• Auxetic materials have been known for
approximately 100 years
• Field only started to be studied in 1987 by Rod Lakes
• The term auxetic was coined by Ken Evans - derived from the Greek word auxetikos which means ‘that tends to increase’
• Surge in interest since the late 1980’s
http://www.imeche.org/NR/rdonlyres/4CB11B44-DB9A-44D0-B94C-662AE7A93740/517/meshauxeticfoam94.png
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Auxetic Materials – How they work• Fabricated through a compression, heating and
cooling process
• Foam cell structure determines the overall properties
Conventional Cell Structure Auxetic Random Rib Structure
Evans and Alderson, Advanced Materials, 2000.
x25x10
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Conventional Foam Auxetic Foam
x5 x5
Alicona InfiniteFocus optical 3D measurement device
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Scanning Electron Microscopy (SEM)
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Auxetic Materials – Importance to the high strain project
• Auxetic foam to act as ‘smart airbags’
• Act behind sandwich structure
• Auxetic materials are popular for their increase in impact resistance and energy absorption:
- Reduce BABT - Reduce / prevent backface signature injury
Non-auxetic
AuxeticEvans and Alderson, Advanced Materials, 2000.
http://www.turtleskin.com/Body-Armor/Body-Armor-Blunt-Trauma-Protection.aspx
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Testing Methods• Indentation test
• Falling drop impact test
• High energy particle erosion test (350 m/s)
• Ballistic test
Other Testing Methods:
• Compressive test
• Tensile test
• Shear test
• 3 point bending test
• Quasi-static cyclic loading
http://www.mpmtechnologies.com/images/BatteryImpactTest_med.jpghttp://english.ymhiten.com.tw/image/E-003a.jpghttp://www.worldoftest.com/img/products/Q250.jpg
http://www.tc.umn.edu/~seong001/web%20image/7R009r1.jpg
Incre
ase in
str
ain
ra
te
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Where project is heading
• Select a standard polymer foam – most likely polyurethane
• Determine optimum conditions for the selected foam
• Characterise the foam
• Test the foam in a number of different situations
http://reasonsoflife.files.wordpress.com/2008/08/success2.png?w=317&h=320
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Acknowledgements The author would
like to acknowledge EPSRC and DSTL for providing funding and opportunity for this project, and my project supervisors for all their direction and support.
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THE END
Any Questions ?
http://croaky.deviantart.com/art/Universal-Soldier-19082158
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Understanding the threat - Bullets
http://www.faqs.org/photo-dict/photofiles/list/2895/3890bullets.jpghttp://www.autosafety.com/