- Unistraesc.u-strasbg.fr/docs/2010/lectures/AUXETIC-METAMATERIALS_FIN.pdfthe auxetic response of...
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Physics of Disordered Systems ‘10
Joseph N. Grima
23rd-27th May 2010
Auxetic Metamaterials
Faculty of ScienceUniversity of Malta
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Acknowledgements
• Co-workers: – Brian Ellul– Daphne Attard– Ruben Gatt
• $$$$– University of Malta– Malta Council for Science & Technology– Malta Government Scholarship Scheme
• Organisers of Metamaterials European Summer School
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The Maltese Islands
• 126 sq. miles• ~400,000 people
St. Thomas’ BayGolden bay
Blue Lagoon
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History
Mdina – The Silent City
Mnajdra Temples
Valletta City
St. John’s Co-cathedral
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University of Malta … since 1592
• Founded as Collegium Melitense by Papal Decree in 1592• Public university since 1768 by Grand Master Pinto de
Fonseca
1780
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The University now …
• Msida• ~10,000 students• The ‘home’ of the auxetics group
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Siggiewi – My home town
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Introduction to auxetics
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Poisson’s ratios
PULL
PULL
+ve Poisson’s ratio → materials get thinner when stretched
v lateral strainPoisson's ratio, = -axial strain
extensionstrain = original length
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Common values
Material Poisson’s ratio
Rubbers 0.5
Lead 0.45
Aluminium 0.33
Common steels 0.27
Cellular solids e.g polymer foams 0.1 - 0.4
Cork 0.0
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But…
• … Poisson’s ratios can also be negative
-1 ≤ν ≤ 0.5. . . from the classical theory of elasticity (for isotropic materials)
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Auxetics
PULL
PULL
-ve Poisson’s ratio → materials get fatter when stretched
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Length scale
log (size, m)Molecular auxeticsSintered ceramics
HoneycombsNatural biomaterials
Microporous polymersFoamsComposites
Macrostructures e.g. Magnox Reactor Core, egg rack, etc.
-10(Å)
-8 -7 -6(μm)
-5 -4 -3(mm)
-9(nm)
-2(cm)
-1 0(m)
1
log (size, m)-10 -8 -7 -6 -5 -4 -3-9 -2 -1 0 1
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Length scale
log (size, m)Molecular auxeticsSintered ceramics
HoneycombsNatural biomaterials
Microporous polymersFoamsComposites
Macrostructures e.g. Magnox Reactor Core, egg rack, etc.
-10(Å)
-8 -7 -6(μm)
-5 -4 -3(mm)
-9(nm)
-2(cm)
-1 0(m)
1
log (size, m)-10 -8 -7 -6 -5 -4 -3-9 -2 -1 0 1
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Length scale
log (size, m)Molecular auxeticsSintered ceramics
HoneycombsNatural biomaterials
Microporous polymersFoamsComposites
Macrostructures e.g. Magnox Reactor Core, egg rack, etc.
-10(Å)
-8 -7 -6(μm)
-5 -4 -3(mm)
-9(nm)
-2(cm)
-1 0(m)
1
log (size, m)-10 -8 -7 -6 -5 -4 -3-9 -2 -1 0 1
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Length scale
log (size, m)Molecular auxeticsSintered ceramics
HoneycombsNatural biomaterials
Microporous polymersFoamsComposites
Macrostructures e.g. Magnox Reactor Core, egg rack, etc.
-10(Å)
-8 -7 -6(μm)
-5 -4 -3(mm)
-9(nm)
-2(cm)
-1 0(m)
1
log (size, m)-10 -8 -7 -6 -5 -4 -3-9 -2 -1 0 1
natrolite
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What gives rise to auxeticity
• Correct co-operation between:
–The material’s internal structure (geometry)
–The way the internal structure deforms when loaded (deformation mechanism)
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Auxetic mechanisms (1)
Re-entrant honeycombs
( )
( ) ( )( )
112
221
1 tan
sin tan
cos
XXl
h l
ν θν
θθ
θ
= = −
= −−
Auxetic: 0o < θ < 90o
Conventional: 90o < θ < 180o
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Auxetic mechanisms (2)
Dilating mechanisms
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Auxetic mechanisms (3)
Rotating Rigid / Semi-Rigid Units
Poisson’s ratio will depend on:
(1) Shape of the rigid unit
(2) Degree of aperture
(3) Connectivity
(4) Extent of rigidity of the unit
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Rotating Quadrilaterals
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…more examples
• Rotating rigid units– quadrilaterals
Squa
res ν = -1
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…more examples
• Rotating rigid units– quadrilaterals
Rect
angl
es
Squa
res ν = -1
Type I Type II
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…more examples
• Rotating rigid units– quadrilaterals
Rect
angl
es
Squa
res ν = -1
Type I Type II
Rhom
bi
β
α
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…more examples
• Rotating rigid units– quadrilaterals
Rect
angl
es
Squa
res ν = -1
Type I Type II
Rhom
bi
β
α
Para
llelo
gram
s
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Others … The Chirals, Anti-chirals
anti-tetrachiral
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… and more
• Egg-rack mechanism
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Properties / Applications
• Auxetic nails
Gets shorter & thinner whilst ‘going in’
Gets longer & fatter whilst ‘going out’
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Properties / Applications
Auxetic materials are harder to indent…
...In auxetics, the material tends to go towards the point of impact to become denser
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Properties / Applications
Synclastic behaviour…
conventional auxetic
… ability to form dome shaped surfaces
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Properties / Applications
• Smart filters
PULL PULL
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Properties and applications
• Smart dressings
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Other Properties
• An increased shear stiffness
• Higher plane fracture toughness
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Historical note
• First Report: A negative Poisson’s ratio was first reported in single crystals of iron pyrites and was attributed to crystal twinning [Voigt, 1928].
• This was followed by some isolated reports mostly in the 1970s and 1980s
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Macro auxetics … an example
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(a) (b)
(c) (d)Y
X
Perforated sheets
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Experiment on Carpet Fabric
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(a)
(b)
Y
X
Y
X
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s = 0.1 s = 1 s = 2 s = 3 s = 4 analytical
(b)(a)
(c) (d)o o o o
o o o o o o o o
o o o o
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MicroscaleAuxetics
… FOAMS
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Process
• First manufactured by Rod Lakes, University of Wisconsin, Madison, (R. Lakes, Science, 235 (1987) p. 1038-1040.)
• Produced from commercially available conventional foams through a process involving:– Volumetric compression of ~30% in volume– Heating to the polymer’s softening temperature– Cooling whilst remaining under compression
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Typical Procedure
Starting from: Reticulated 30 ppi polyester polyurethane
• Cut conventional foam in the shape of a cuboid of size 35 mm x 35 mm x 105 mm long;
• Press sample into a mould of dimensions 25 mm x 25 mm x 75 mm (28.6 % strain along each axis);
• Heat at 200 °C for 10 minutes, Remove from mouldStretch Replace in the mould.
• Cool to room temperature• Heat for 1 hour at 100 °C
x 2
Taken from: Smith, Grima, Evans, Acta Mater. 48 (2000) p.4349-4356.
Technique adapted from: Chan and Evans, J. Mater. Sci., 32 (1997) p.
5945-5953.
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Before …
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… and after
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New approach
• Uses solvent instead of heat
• Process involves– Wetting foam with appropriate solvent– Compressing the foam volumetrically by 30%– Allowing the foam to dry well
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Typical Process
• Starting from: Reticulated 30 ppi polyurethane foam (Dongguan Dihui Foam Sponge, China)
• Cut conventional foam in the shape of a cylinder of diameter 40mm and length 84mm
• Wet the foam with acetone• Remove excess solvent• Press sample into a mould of diameter 26 mm and length
55mm (~35 % strain along each axis);• Allow the sample to dry completely before removing from
mould
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Result
JN Grima, D Attard, R Gatt and RN Cassar, Adv. Eng. Mater., 21 (2009)
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Measurements
0
0.04
0.08
0.12
0.16
0.2
0 0.1 0.2 0.3 0.4 0.5
0
0.04
0.08
0.12
0.16
0 0.1 0.2 0.3 0.4
ν = -0.34
ν = -0.36
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Foams – The Models
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Auxetic foam
Microstructure in auxetic foams
Conventional foam
JN Grima, A Alderson and KE Evans, J. Phys. Soc. Jpn, 74 (2005) 1341.
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Re-entrant structures
Uniaxial
loading
Uniaxial
loading
Compression/heating process
conventional
auxetic
LJ Gibson and MF Ashby, Cellular Solids, Cambridge Uni. Press, 1997.IG Masters and KE Evans, Composite Struct, 35 (1996) 403.KE Evans, A Alderson and FR Christian, J. Chem. Soc. Faraday Trans., 91 (1995) 2671.
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3D Re-entrant structures
dodecahedron foam models
tetrakaidecahedronfoam models
conventional Re-entrant
(KE Evans, MA Nkansah and IJ Hutchinson, Acta Metall. Mater., 2 (1994) 1289)
(JB Choi, RS Lakes, J Compos. Mater., 29 (1995) 113.)
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Missing rib model
Uniaxial
loading
Uniaxial
loading
Compression/heating process
CW Smith, JN Grima and KE Evans, Acta Mater., 48 (2000) 4349.
conventional
auxetic
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Rotating rigid units
(a)
(idealised form …rotating triangles model)
Uniaxial
loading
Uniaxial
loading
Compression/heating process
conventional
auxetic
JN Grima, A Alderson and KE Evans, J. Phys. Soc. Jpn, 74 (2005) 1341.
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Later on … The evidence
• In situ three-dimensional X-ray microtomography of an auxetic foam under tension, S.A. McDonald, N. Ravirala, P.J. Withers, A. Alderson, Scripta Mater. (2009) p. 232-235 which says:– X-ray microtomography has the potential to unambiguously
identify the predominant deformation mechanisms responsible for the auxetic response of polymeric foams. It has been performed in situ on an auxetic polyurethane foam subjected to incrementaluniaxial tensile loading. A Poisson’s ratio of −0.20 measured from localized microstructural changes observed during the tomographic sequence compares well with the bulk value of −0.21 obtained by videoextensometry. Evidence obtained by digital image correlation for straightening of bent ribs and rotation of junctions connecting ribs during straining is presented.
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Synthesized ‘molecular level’ Auxetics: LCPs
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Anselm C. Griffin’s LCP
PULLPULL
molecular level equivalents ….
O(H2C)10OO O(H3C)10O O
x
concept ….
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Other possible auxetic polymers
Grima et al., Chem. Comm. (2000)
Evans et al., Nature (1991)
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Other possible polymers …
Ox1Ox2
Ox1
Ox3Ox2
OHOH
OHOH
OHOH
OHOH
OHOH
OHOH
OHOH
OHOH
n
n
n
n
OHOH
OHOH
OHOH
OHOH
OHOH
OHOH
OHOH
OHOH
n
n
n
n
Ox1
Ox2
Ox1
Ox2 Ox1
Ox3
(a)
(b) (c)
Ox3
Grima et al., Chem. Comm. (2004)
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Auxeticity in Naturally Occurring minerals
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Case Study (i) - Cristobalite
• Meta-stable, crystalline silica
• Has a low temperature phase (α-cristobalite) and a high temperature phase (β-cristobalite)
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-180 -135 -90 -45 0 45 90 135 180-0.6-0.5-0.4-0.3-0.2-0.10.0
Maximum auxetic behaviour in the (1 0 0) and (0 1 0) planes (yz, xz) at c. 45o to the major axes.
A. Yeganeh-Haeri et al., Science, 257 (1992) 650
α− Cristobalite:mechanical properties
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Tetrahedra rotate relative to each other @ two distinct local axis without changing shape
. . . rotation of SiO4 tetrahydra
Keskar & Chelikowsky
a
c b
DTM RTM 1 + 2
tetrahedra expand / shrink without changing relative orientation
Alderson et al.CTM
Deformation mechanisms: Rotating tetrahedra
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z
y. . . Rotating rectangles as viewed
in the (100) Plane (yz-plane)
Deformation mechanisms –2D model
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z
y
0.0 -0.1 -0.3 -0.50.0-0.1
-0.3
-0.5
0.0-0.1-0.3-0.5 0.0-0.1
-0.3
-0.5
0
45
90
135
180
225
270
315
Deformation mechanisms –2D model
. . . Rotating rectangles as viewed in the (100) Plane (yz-plane)
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. . . Rotating Rectangles mechanism taking place in the (100) plane
Rotating rectangles model: Molecular Modelling
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x
y
zx
y
zx
y
z
A rigid ‘columnar structurue’, with a ‘rectangular’ projection in yz-plane
Soft Si – O – Si bonds representing the hinges
y
x
x
z
y
z
y
x
x
z
y
z
y
x
x
z
y
z
Rotating Rectangles model:Molecular Modelling
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z
y
α-cristobalite
β-cristobalite
Loss of NPR for the α→β transition:an explanation
pull
pull
stress-induced phase transition
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. . . Conventional behaviourin β-cristobalite in the (100) plane
Loss of NPR for the α→β transition:an explanation
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. . . Rotating squares mechanism taking place in the (001) plane
NPR in ‘ordered’ β-cristobalite – an explanation
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Case study (ii) - Zeolites
• Why look at zeolites ?– Zeolites have highly geometric nanostructures, i.e.
there is the possibility of auxetic behaviour
– Very little experimental data is available on the single crystalline mechanical properties of zeolites
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Zeolites … early studies [1999]
THO (Thomsonite)
Na4Ca8[Al20Si20O80] . 24 H2O
Force-fieldBurchart1
BKS2
Universal3
CVFF4
νxy νyx
(1) Burchart, PhD. Thesis, Delft. Univ. Tech, (1992) (2) Van Beest et. al., Phys. Rev. Lett., 64 (1990) 1955
(3) Rappe et al., J. Am. Chem. Soc. 114 (1992) 10046(4) Cerius2 User Guide, MSI Inc., San Diego, USA (1996)
-0.55-0.33-0.33-0.46
-0.55-0.53-0.40-0.46
J.N. Grima et al., Adv. Mater, 12 (2000) p.1912xz
y
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THO: deformations
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Natrolite (NAT): Deformation
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0.0 0.1 0.20.00.10.2 0o
30o
60o90o
120o
150o
180o
210o
240o
270o300o
330o
PositiveNegative
[010
]
[100]
σ
C. Sanchez-Valle et al., J. App. Phys.,98 (2005) p.053508
J. N. Grima et al., J. App. Phys., 101 (2007) 086102.
NAT: deformation
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Conclusions …
• Auxeticity is a very useful property;
• There are various types of auxetics … model structures, polymers, foams, zeolites, etc. etc.
• Can be explained by ‘geometry-deformation mechanism’ based models;
• Nature can teach us how to ‘make’ auxetics.
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• Negative Thermal Expansion
• Negative compressibility
Other thermo-mechanical metamaterials
p
p
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Negative Thermal Expansion: NTE
1V
VV T
α ∂=
∂1
L
LL T
α ∂=
∂
NTE
Cooling … systems get larger
Heating … systems get smaller
e.g. water near its freezing point
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Applications
• Achieve any pre-desired thermal expansion• Use as a ‘filler’ between two expanding strips
• Ensure that gap remains in diffraction gratings / sensors
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Problem …
•NTE materials are usually produced on a small scale and are very expensive
Solution ????
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Case Study 1:NTE in triangular systems
Concept: the flattening of a triangle
heat
αS2 >> αS1
αS2 > αS3 > αS1
heat
(b)
(a)
[1] LJ Vandeperre, A Howlett, & WJ Clegg, Int. Conf. on Modern Materials and Technologies, Florence (2002).[2] LJ Vandeperre & WJ Clegg, MRS Symposium Proceedings, 785 (2003) D11.4.[3] D Cao, F Bridges, GR Kowah & AP Ramirez, Phys. Bev. B, 68 (2003) 014303.[4] CW Smith et al., Auxetic & Related Systems II & III, Poznan (2005); Exeter (2006)
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Implementations (1)…
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Implementations (2)…
J.N. Grima, Proc. Royal Soc. A, (2007)
If three sides are made from different materials, the system may shear
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( ) ( ) ( )2 2 2 2 2 2 2 2 21111 1 2 3 S1 2 1 3 S2 3 1 2 S3 2 2
2 11
2 2 4 4 42 11 S2 1 S1 2 S2 3 S3 2 2
2 11
12
1 22
l l l l l l l l ldT l X
l X l l ll X
εα α α α
α α α α
⎡ ⎤= = + + + + +⎣ ⎦
⎡ ⎤− + + +⎣ ⎦
2222 S2dT
εα α= =
( ) ( )2 21 S1 S2 3 S3 S212
12 2111 2
12 2
l ldT dT X l
α α α αε γα α− − −
= = = =
( ) ( ) ( ) ( ) ( )2 211 12 22cos 2 sin cos sinα ζ α ζ α ζ ζ α ζ= + +
( )2
211 22 11 2212max/ min 2 2
α α α αα ζ α+ −⎛ ⎞= ± +⎜ ⎟⎝ ⎠
Model for generalised form
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Implementation (3) …
Maximizing the effect … use of gases Gas
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Implementation (4)…
• Clegg & Vandeperre
A 2D network which can generate isothermal NTE(squares can be hexagons or triangles)
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Implementation
• Also possible with triangles & hexagons …
heat
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Is this important??? …New Scientist
29 March 2007
Bill Clegg, University of Cambridge … A mathematical tool that makes designing the strut-based structures easier could be useful in a variety of engineering situations, he adds: "Thermal expansion is an enormous problem, particularly when you have layers of different material that expand differently, or when the gaps between electrodes are important, like in fuel cells or oxygen sensors."
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…CORDIS focus Newsletter
May 2007
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NPR & NTE
Can a system exhibit both NPR and NTE?
YESYES
… For example the rotating triangles system
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Auxeticity from ‘Rotating Triangles’ geometry
Negative Poisson’s ratio
J.N. Grima, et al., J. Phys. Soc. Jpn., 76 (2007) 025001
NPR & NTE
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cold hot
J.N. Grima, et al., J. Phys. Soc. Jpn., 76 (2007) 025001
NPR & NTE
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Case Study 2: Bi-materials
Heating a bi-material with components having different thermal expansion coefficients will cause a curvature
Same thing will apply if they have different moduli, etc.
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Implementation …
• Use with anti-tetrachiral (of other similar systems)
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Result … NTE / NPR
e.g.: NTE (verified with ANSYS)
Material 1 Material 2
Young’s modulus (psi): 1.20 x 105 1.20 x 105
Poisson’s ratio: 0.3 0.3
Coefficient of Thermal Expansion: 5 x 10-7 0.00011
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Case Study 3: NTE in composites with Needle-Like inclusions
ii MAMAengineering & research(Ing. Michael Attard)
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Case Study 3: NTE in composites with Needle-Like inclusions
ii MAMAengineering & research
J.N. Grima et al., Comp. Sci. Tech. (2010)
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Case Study 3: NTE in composites with Needle-Like inclusions
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Alternative ‘multi-layered’ systems
(c)
Material A: Stiff, high CTE Material B: Soft, high Poisson’s ratio, low CTE
heatheat
J.N. Grima et al., Phys. Stat. Sol. RRL (2010)
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Negative compressibility, NC
• Compressibility is a measure of the relative volume change of a fluid or solid as a response to a pressure (or mean stress) change.
• Normally: System gets larger under negative pressure (partial vacuum)
• Negative compressibility: systems get smaller under negative pressure
1 1 pK V V
β ∂= = −
∂ Normally negative
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Negative Compressibility
• Bimaterials also bend when subjected to a change in pressure if constituent materials have different Young’s moduli and/or Poisson’s ratio
R. Gatt & JN Grima, Scripta Mater. (2007)R. Gatt & JN Grima, Phys. Stat. Sol RRL. (2007)
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Also in triangular systems …
D. Attard et al. Phys. Stat. Sol. B (2008)
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Conclusions
• There are various thermo-mechanical metamaterials, including auxetic metamaterials, NTE and NC systems
• Some of these systems can be ‘constructed; based on very simple models and concepts;
• Thermo-mechanical metamaterials can have some very interesting applications;
• NPR / NTE / NC can co-exist, and when they do, results are very interesting.
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Thank You !
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