predicting the constitutive behaviour of microsphere ... manchester.pdf · need to understand how...
TRANSCRIPT
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Predicting the constitutive behaviour ofmicrosphere-filled elastomers: the influence of
shell buckling and interaction
William J. ParnellProfessor of Applied Mathematics and EPSRC Research Fellow
School of Mathematics, University of Manchester, UK
Innovations in Rubber Design
7th December 2016work with R. De Pascalis, M. Thorpe, G. Wyn Jones and I.D.
Abrahams
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Overview
◮ Background◮ WICC - my research group◮ Problem of interest - elastomeric composites
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Overview
◮ Background◮ WICC - my research group◮ Problem of interest - elastomeric composites
◮ Constitutive modelling of microsphere filled elastomers(syntactic foams)
◮ nonlinear load curve
![Page 4: Predicting the constitutive behaviour of microsphere ... Manchester.pdf · Need to understand how the material responds acoustically when it is under significant pre-stress. Shorter](https://reader030.vdocuments.site/reader030/viewer/2022040823/5e6def2301bb762b17379f6e/html5/thumbnails/4.jpg)
Overview
◮ Background◮ WICC - my research group◮ Problem of interest - elastomeric composites
◮ Constitutive modelling of microsphere filled elastomers(syntactic foams)
◮ nonlinear load curve◮ microsphere buckling models
![Page 5: Predicting the constitutive behaviour of microsphere ... Manchester.pdf · Need to understand how the material responds acoustically when it is under significant pre-stress. Shorter](https://reader030.vdocuments.site/reader030/viewer/2022040823/5e6def2301bb762b17379f6e/html5/thumbnails/5.jpg)
Overview
◮ Background◮ WICC - my research group◮ Problem of interest - elastomeric composites
◮ Constitutive modelling of microsphere filled elastomers(syntactic foams)
◮ nonlinear load curve◮ microsphere buckling models
◮ Wave propagation in pre-stressed microsphere composites
![Page 6: Predicting the constitutive behaviour of microsphere ... Manchester.pdf · Need to understand how the material responds acoustically when it is under significant pre-stress. Shorter](https://reader030.vdocuments.site/reader030/viewer/2022040823/5e6def2301bb762b17379f6e/html5/thumbnails/6.jpg)
Overview
◮ Background◮ WICC - my research group◮ Problem of interest - elastomeric composites
◮ Constitutive modelling of microsphere filled elastomers(syntactic foams)
◮ nonlinear load curve◮ microsphere buckling models
◮ Wave propagation in pre-stressed microsphere composites
◮ Perspectives
![Page 7: Predicting the constitutive behaviour of microsphere ... Manchester.pdf · Need to understand how the material responds acoustically when it is under significant pre-stress. Shorter](https://reader030.vdocuments.site/reader030/viewer/2022040823/5e6def2301bb762b17379f6e/html5/thumbnails/7.jpg)
Overview
◮ Background◮ WICC - my research group◮ Problem of interest - elastomeric composites
◮ Constitutive modelling of microsphere filled elastomers(syntactic foams)
◮ nonlinear load curve◮ microsphere buckling models
◮ Wave propagation in pre-stressed microsphere composites
◮ Perspectives◮ More general constitutive modelling
![Page 8: Predicting the constitutive behaviour of microsphere ... Manchester.pdf · Need to understand how the material responds acoustically when it is under significant pre-stress. Shorter](https://reader030.vdocuments.site/reader030/viewer/2022040823/5e6def2301bb762b17379f6e/html5/thumbnails/8.jpg)
Overview
◮ Background◮ WICC - my research group◮ Problem of interest - elastomeric composites
◮ Constitutive modelling of microsphere filled elastomers(syntactic foams)
◮ nonlinear load curve◮ microsphere buckling models
◮ Wave propagation in pre-stressed microsphere composites
◮ Perspectives◮ More general constitutive modelling◮ Metamaterials and tunable materials
![Page 9: Predicting the constitutive behaviour of microsphere ... Manchester.pdf · Need to understand how the material responds acoustically when it is under significant pre-stress. Shorter](https://reader030.vdocuments.site/reader030/viewer/2022040823/5e6def2301bb762b17379f6e/html5/thumbnails/9.jpg)
Overview
◮ Background◮ WICC - my research group◮ Problem of interest - elastomeric composites
◮ Constitutive modelling of microsphere filled elastomers(syntactic foams)
◮ nonlinear load curve◮ microsphere buckling models
◮ Wave propagation in pre-stressed microsphere composites
◮ Perspectives◮ More general constitutive modelling◮ Metamaterials and tunable materials◮ Microsphere composites project (opportunities)
![Page 10: Predicting the constitutive behaviour of microsphere ... Manchester.pdf · Need to understand how the material responds acoustically when it is under significant pre-stress. Shorter](https://reader030.vdocuments.site/reader030/viewer/2022040823/5e6def2301bb762b17379f6e/html5/thumbnails/10.jpg)
◮ Background
◮ A traditional modelling problem (with Thales)
◮ Some wave concepts
◮ Waves in pre-stressed media
◮ Tunable band-gaps
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WICC - Waves in Complex Continua
◮ Group founded in Sept 2010, led by Parnell and Abrahams(now Director of INI, Cambridge)
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WICC - Waves in Complex Continua
◮ Group founded in Sept 2010, led by Parnell and Abrahams(now Director of INI, Cambridge)
◮ General objective is to model, mathematically, complexmaterials
![Page 13: Predicting the constitutive behaviour of microsphere ... Manchester.pdf · Need to understand how the material responds acoustically when it is under significant pre-stress. Shorter](https://reader030.vdocuments.site/reader030/viewer/2022040823/5e6def2301bb762b17379f6e/html5/thumbnails/13.jpg)
WICC - Waves in Complex Continua
◮ Group founded in Sept 2010, led by Parnell and Abrahams(now Director of INI, Cambridge)
◮ General objective is to model, mathematically, complexmaterials
◮ Includes general constitutive modelling as well as wavepropagation phenomena
![Page 14: Predicting the constitutive behaviour of microsphere ... Manchester.pdf · Need to understand how the material responds acoustically when it is under significant pre-stress. Shorter](https://reader030.vdocuments.site/reader030/viewer/2022040823/5e6def2301bb762b17379f6e/html5/thumbnails/14.jpg)
WICC - Waves in Complex Continua
◮ Group founded in Sept 2010, led by Parnell and Abrahams(now Director of INI, Cambridge)
◮ General objective is to model, mathematically, complexmaterials
◮ Includes general constitutive modelling as well as wavepropagation phenomena
◮ Large group, around 25 members
![Page 15: Predicting the constitutive behaviour of microsphere ... Manchester.pdf · Need to understand how the material responds acoustically when it is under significant pre-stress. Shorter](https://reader030.vdocuments.site/reader030/viewer/2022040823/5e6def2301bb762b17379f6e/html5/thumbnails/15.jpg)
WICC - Waves in Complex Continua
◮ Group founded in Sept 2010, led by Parnell and Abrahams(now Director of INI, Cambridge)
◮ General objective is to model, mathematically, complexmaterials
◮ Includes general constitutive modelling as well as wavepropagation phenomena
◮ Large group, around 25 members
◮ Breadth of funding from EPSRC, Royal Society, LeverhulmeTrust and Industry (Dyson, Thales, NNS)
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Research interests, www.wiccwavesgroup.weebly.com
www.pump−zone.com
www.femto−st.fr
Coutinho et al (2007)
WICC
Phononics,metamaterials
Inhomogeneousmedia models
Industrial modelling
Biological tissues
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◮ Background to Manchester and my research group
◮ Constitutive modelling of microsphere filled elastomers
◮ Wave propagation in pre-stressed microsphere composites
◮ Perspectives
![Page 18: Predicting the constitutive behaviour of microsphere ... Manchester.pdf · Need to understand how the material responds acoustically when it is under significant pre-stress. Shorter](https://reader030.vdocuments.site/reader030/viewer/2022040823/5e6def2301bb762b17379f6e/html5/thumbnails/18.jpg)
Microsphere composites (syntactic foams)
(a) (b)
SEM image (a) Hollow Glass Microsphere, (b) surface/shell structure. Li et al. [2011].
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Microsphere composites (syntactic foams)
(a) (b)
SEM image (a) Hollow Glass Microsphere, (b) surface/shell structure. Li et al. [2011].
Reasons to use microspheres in matrix composites:
◮ Add volume whilst reducing weight
◮ Improve thermal and sound insulation
◮ Increase compressibility and reduce cost
Isotropic, homogeneous rubber matrix filled with expancel (glassy)microspheres - distribution of shell thicknesses.
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Industrial interest and relation to waves
Need to understand how the material responds acoustically when itis under significant pre-stress.
Shorter et al. (2008)
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Industrial interest and relation to waves
Need to understand how the material responds acoustically when itis under significant pre-stress.
Shorter et al. (2008)
To understand the acoustic response we need a model for theconstitutive behaviour of the medium (strongly related).
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Motivation
Need to be able to predict the so-called pressure-volume curveassociated with this material
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Motivation
Need to be able to predict the so-called pressure-volume curveassociated with this material
Experiments very difficult and costly to perform
![Page 24: Predicting the constitutive behaviour of microsphere ... Manchester.pdf · Need to understand how the material responds acoustically when it is under significant pre-stress. Shorter](https://reader030.vdocuments.site/reader030/viewer/2022040823/5e6def2301bb762b17379f6e/html5/thumbnails/24.jpg)
Motivation
Need to be able to predict the so-called pressure-volume curveassociated with this material
Experiments very difficult and costly to perform
Repeatability is difficult
![Page 25: Predicting the constitutive behaviour of microsphere ... Manchester.pdf · Need to understand how the material responds acoustically when it is under significant pre-stress. Shorter](https://reader030.vdocuments.site/reader030/viewer/2022040823/5e6def2301bb762b17379f6e/html5/thumbnails/25.jpg)
Motivation
Need to be able to predict the so-called pressure-volume curveassociated with this material
Experiments very difficult and costly to perform
Repeatability is difficult
Dependence on a number of parameters can be tested with themodel
![Page 26: Predicting the constitutive behaviour of microsphere ... Manchester.pdf · Need to understand how the material responds acoustically when it is under significant pre-stress. Shorter](https://reader030.vdocuments.site/reader030/viewer/2022040823/5e6def2301bb762b17379f6e/html5/thumbnails/26.jpg)
Motivation
Need to be able to predict the so-called pressure-volume curveassociated with this material
Experiments very difficult and costly to perform
Repeatability is difficult
Dependence on a number of parameters can be tested with themodel
Require careful models incorporating all of the major effects
![Page 27: Predicting the constitutive behaviour of microsphere ... Manchester.pdf · Need to understand how the material responds acoustically when it is under significant pre-stress. Shorter](https://reader030.vdocuments.site/reader030/viewer/2022040823/5e6def2301bb762b17379f6e/html5/thumbnails/27.jpg)
Geometry and assumptions
In practice the material response is strongly nonlinear - why?
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Geometry and assumptions
In practice the material response is strongly nonlinear - why?
We need a model for the nonlinear constitutive behaviour of themedium.
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Geometry and assumptions
In practice the material response is strongly nonlinear - why?
We need a model for the nonlinear constitutive behaviour of themedium.
p
p
p
p
p
p
p
p
deformation
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Single shell - model - dilute distribution
S
p
p
p
p
p
p
p
p
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Single shell - model - dilute distribution
S
p
p
p
p
p
p
p
p
We need a relationship
δV = δV(p)
δV = relative volume change.
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Single shell - model - dilute distribution
S
p
p
p
p
p
p
p
p
We need a relationship
δV = δV(p)
δV = relative volume change.
Pre-buckling Buckling Post-buckling
Linear elasticity Fok-Allwrightmodel
Nonlinear elasticity
p < pc p = pc p > pc
δV(p) is then integrated response over all shell thicknesses.
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Parameter studies and some plots
Rubbery matrix. Glassy expancel microspheres.Initial volume fraction of microspheres = 5%,Gamma distribution of shell thicknesses.
Neo-Hookean (dotted), Mooney-Rivlin (solid), nearly-compressible (dashed) and linear
elasticity (dot-dash).
De Pascalis, R., WJP and Abrahams, I.D., 2013, JMPS
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Buckling - Thorpe PhD
Investigated shell buckling inside elastomers. General methodderived - energy minimization. Stiff, thin-shell limit derived:
Hydrostatic buckling pressure of a thin, glassy shell p relative tothe Classical buckling pressure for an unembedded shell,
p0 =4µs (1+νs )√
3(1−νs )(Zoelly-Van der Neut), for each buckling mode n.
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◮ Background to Manchester and my research group
◮ Constitutive modelling of microsphere filled elastomers
◮ Wave propagation in pre-stressed microsphere composites
◮ Perspectives
![Page 36: Predicting the constitutive behaviour of microsphere ... Manchester.pdf · Need to understand how the material responds acoustically when it is under significant pre-stress. Shorter](https://reader030.vdocuments.site/reader030/viewer/2022040823/5e6def2301bb762b17379f6e/html5/thumbnails/36.jpg)
Other inspiration
Inhomogeneous soft materials occur frequently in natural andsynthetic forms:
◮ Polymer based composites
◮ Self-assembly based hydrogels
◮ Soft tissue
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Other inspiration
Inhomogeneous soft materials occur frequently in natural andsynthetic forms:
◮ Polymer based composites
◮ Self-assembly based hydrogels
◮ Soft tissue
Their dynamicresponse in pre-stressedstates is fundamental.
![Page 38: Predicting the constitutive behaviour of microsphere ... Manchester.pdf · Need to understand how the material responds acoustically when it is under significant pre-stress. Shorter](https://reader030.vdocuments.site/reader030/viewer/2022040823/5e6def2301bb762b17379f6e/html5/thumbnails/38.jpg)
Other inspiration
Inhomogeneous soft materials occur frequently in natural andsynthetic forms:
◮ Polymer based composites
◮ Self-assembly based hydrogels
◮ Soft tissue
Their dynamicresponse in pre-stressedstates is fundamental.
Difficulties:
◮ Homogeneous deformations are not possible
![Page 39: Predicting the constitutive behaviour of microsphere ... Manchester.pdf · Need to understand how the material responds acoustically when it is under significant pre-stress. Shorter](https://reader030.vdocuments.site/reader030/viewer/2022040823/5e6def2301bb762b17379f6e/html5/thumbnails/39.jpg)
Other inspiration
Inhomogeneous soft materials occur frequently in natural andsynthetic forms:
◮ Polymer based composites
◮ Self-assembly based hydrogels
◮ Soft tissue
Their dynamicresponse in pre-stressedstates is fundamental.
Difficulties:
◮ Homogeneous deformations are not possible
◮ Microstructure evolution
![Page 40: Predicting the constitutive behaviour of microsphere ... Manchester.pdf · Need to understand how the material responds acoustically when it is under significant pre-stress. Shorter](https://reader030.vdocuments.site/reader030/viewer/2022040823/5e6def2301bb762b17379f6e/html5/thumbnails/40.jpg)
Other inspiration
Inhomogeneous soft materials occur frequently in natural andsynthetic forms:
◮ Polymer based composites
◮ Self-assembly based hydrogels
◮ Soft tissue
Their dynamicresponse in pre-stressedstates is fundamental.
Difficulties:
◮ Homogeneous deformations are not possible
◮ Microstructure evolution
◮ Changes in material properties
![Page 41: Predicting the constitutive behaviour of microsphere ... Manchester.pdf · Need to understand how the material responds acoustically when it is under significant pre-stress. Shorter](https://reader030.vdocuments.site/reader030/viewer/2022040823/5e6def2301bb762b17379f6e/html5/thumbnails/41.jpg)
Other inspiration
Inhomogeneous soft materials occur frequently in natural andsynthetic forms:
◮ Polymer based composites
◮ Self-assembly based hydrogels
◮ Soft tissue
Their dynamicresponse in pre-stressedstates is fundamental.
Difficulties:
◮ Homogeneous deformations are not possible
◮ Microstructure evolution
◮ Changes in material properties
◮ Response is often strongly frequency dependent
![Page 42: Predicting the constitutive behaviour of microsphere ... Manchester.pdf · Need to understand how the material responds acoustically when it is under significant pre-stress. Shorter](https://reader030.vdocuments.site/reader030/viewer/2022040823/5e6def2301bb762b17379f6e/html5/thumbnails/42.jpg)
Wave scattering in pre-stressed microsphere composites
Modify the classical Multiple Scattering Theory of Mal and Bose(1974) as mechanism for evaluating effective wavenumber.
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Wave scattering in pre-stressed microsphere composites
Modify the classical Multiple Scattering Theory of Mal and Bose(1974) as mechanism for evaluating effective wavenumber. E.g.
k∗s = F (φ,A2,A1) → k∗s (p∞) = f (φ(p∞), a2(p∞), a1(p∞))
![Page 44: Predicting the constitutive behaviour of microsphere ... Manchester.pdf · Need to understand how the material responds acoustically when it is under significant pre-stress. Shorter](https://reader030.vdocuments.site/reader030/viewer/2022040823/5e6def2301bb762b17379f6e/html5/thumbnails/44.jpg)
Wave scattering in pre-stressed microsphere composites
Modify the classical Multiple Scattering Theory of Mal and Bose(1974) as mechanism for evaluating effective wavenumber. E.g.
k∗s = F (φ,A2,A1) → k∗s (p∞) = f (φ(p∞), a2(p∞), a1(p∞))
which gives the effective (incremental) shear modulus at fixedpre-stress
µ∗ = g(µ1/µ0, φ, p∞)
![Page 45: Predicting the constitutive behaviour of microsphere ... Manchester.pdf · Need to understand how the material responds acoustically when it is under significant pre-stress. Shorter](https://reader030.vdocuments.site/reader030/viewer/2022040823/5e6def2301bb762b17379f6e/html5/thumbnails/45.jpg)
◮ Background to Manchester and my research group
◮ Constitutive modelling of microsphere filled elastomers
◮ Wave propagation in pre-stressed microsphere composites
◮ Perspectives
![Page 46: Predicting the constitutive behaviour of microsphere ... Manchester.pdf · Need to understand how the material responds acoustically when it is under significant pre-stress. Shorter](https://reader030.vdocuments.site/reader030/viewer/2022040823/5e6def2301bb762b17379f6e/html5/thumbnails/46.jpg)
General constitutive modelling
Significant interest in nonlinear viscoelasticity,
![Page 47: Predicting the constitutive behaviour of microsphere ... Manchester.pdf · Need to understand how the material responds acoustically when it is under significant pre-stress. Shorter](https://reader030.vdocuments.site/reader030/viewer/2022040823/5e6def2301bb762b17379f6e/html5/thumbnails/47.jpg)
General constitutive modelling
Significant interest in nonlinear viscoelasticity, e.g. QLV
Π(t) =
∫ t
−∞
G(t − s)dΠe
ds(C(s)) ds
![Page 48: Predicting the constitutive behaviour of microsphere ... Manchester.pdf · Need to understand how the material responds acoustically when it is under significant pre-stress. Shorter](https://reader030.vdocuments.site/reader030/viewer/2022040823/5e6def2301bb762b17379f6e/html5/thumbnails/48.jpg)
General constitutive modelling
Significant interest in nonlinear viscoelasticity, e.g. QLV
Π(t) =
∫ t
−∞
G(t − s)dΠe
ds(C(s)) ds
and extensions to accommodate strain dependent relaxation
Π(t) =
∫ t
−∞
G(t − s,C)dΠe
ds(C(s)) ds
![Page 49: Predicting the constitutive behaviour of microsphere ... Manchester.pdf · Need to understand how the material responds acoustically when it is under significant pre-stress. Shorter](https://reader030.vdocuments.site/reader030/viewer/2022040823/5e6def2301bb762b17379f6e/html5/thumbnails/49.jpg)
General constitutive modelling
Significant interest in nonlinear viscoelasticity, e.g. QLV
Π(t) =
∫ t
−∞
G(t − s)dΠe
ds(C(s)) ds
and extensions to accommodate strain dependent relaxation
Π(t) =
∫ t
−∞
G(t − s,C)dΠe
ds(C(s)) ds
and specifically motivated by microstructural models, for e.g.tendon, filled polymers, etc. again informed by imaging.De Pascalis, Abrahams & WJP, 2014, Proc. Roy. Soc. A
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Metamaterials & tuneable structures
WJP, 2012, Proc. Roy. Soc. A
Also interest in tuning band structure of periodic elastomers viapre-load, or perhaps more interestingly retain them under pre-load(invariance) ??
See poster by Zhang and Parnell tomorrow
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Microsphere modelling project
Two year project as part of my fellowship
◮ 2 year PDRA - theoretical modelling (currently advertised)
◮ 2 year PDRA - XCT imaging (advertised shortly)
Image-based modelling, particularly regarding behaviour under load
[T. Lowe & S. Coban, Henry Moseley Centre, Manchester]
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Acknowledgements
◮ EPSRC (Parnell “NEMESIS” Fellowship EP/L018039/1)
◮ EPSRC (De Pascalis PDRA EP/H050779/1)
◮ Thales UK/EPSRC (Thorpe CASE PhD)
◮ Royal Society (Abrahams Wolfson)