A MULTISCALE TECHNIQUE FOR THEORETICAL- …Application of homogenization theory • NUMERICAL...
Transcript of A MULTISCALE TECHNIQUE FOR THEORETICAL- …Application of homogenization theory • NUMERICAL...
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UNIVERSIDADE FEDERAL DO RIO DE JANEIRODEPARTAMENTO DE ENGENHARIA MECÂNICAPOLITÉCNICA/COPPE
A MULTISCALE TECHNIQUE FOR THEORETICAL-COMPUTATIONAL PREDICTION OF PROPERTIES
OF HETEROGENEOUS MATERIALS
Prof. MANUEL ERNANI CRUZPEM/COPPE/UFRJ
SHORT COURSEIDENTIFICATION OF PHYSICAL PROPERTIES
ENCIT 2006, December 05-08, 2006CURITIBA, PR
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• INTRODUCTION (bias: heat transfer)� Generalities: Heterogeneous Media� Objectives and Motivation� Problem of interest
• BRIEF LITERATURE REVIEW• HEAT CONDUCTION IN COMPOSITES
� Physical description� Mathematical formulation (strong and weak forms)� Application of homogenization theory
• NUMERICAL METHODS� Mesh generation in 2-D and 3-D� Discretization by isoparametric finite elements� Iterative solution
• RESULTS� Validation for ordered arrays of spheres and cylinders� Disordered arrays of spheres and cylinders� Comparison with experimental data (tentative)
• DOABLE FUTURE WORKS
TOPICS
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INTRODUCTION (i)
• Generalities: Heterogeneous Media
Let us convince ourselves, simultaneously, that the heat transfer problem in heterogeneous media, in a general context, and the heat conduction problem in composite materials, in a specific context, are extremely old, relevant, challenging, interesting, and current problems!
We would like to understand, in fact, the macroscopic behavior of such media or materials, which depend on their ‘effective properties.’
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Pioneering work by Lord Rayleigh, Phil. Mag., 1892.
Classical extension of Rayleigh’s method, 1979.
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A mathematician works on the problem, invoking the ‘self-consistent’ hypothesis, 1983.
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Classical model for the effective conductivity of frost, 1987.
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Schematic and micrograph of uniaxialcarbon-fiber composite, 1987.
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Experimental and analytical (equivalent inclusion method) work, 1992.
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Theoretical model accounting for radiation and conduction, 2000.
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Experimental measurements of radiative (and conductive) properties, 2000.
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Experimental measurements of effective conductivity of heat pipe wicks, 2004.
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DIB: 2-D computational technique, 2004.
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Same multiscale modeling approach for thermal and mechanical properties of composites for cryogenic applications, 2006.
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• ObjectivesDevelopment and application of a multiscale theoretical-computational approach to calculate the effective conductivity of composite materials with 2-D or 3-D microstructures, and with or without the presence of voids, and of an interfacial thermal resistance between the constituent phases.
• MotivationEngineering applications of composite materials in various industries (electronic equipment, aerospatial, nuclear etc.).�Relatively easy to fabricate.�Low cost and low weight.�Desirable/tailorable mechanical, thermal, and electrical
properties (stiffness, resistance to corrosion and wear, thermal expansion coefficient, electrical and thermal conductivity, dielectric constant).
INTRODUCTION (ii)
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• Problem of interestSteady state heat conduction in composite materials.
• Definition of composite materials�Fabricated heterogeneous media with two or more phases
that possess distinct macroscopic properties.�Continuous phase: matrix (constituted by metallic, organic,
or ceramic materials).�Dispersed phase: particles and/or fibers (silicon carbide,
aluminum oxide, carbon, graphite), voids.• ‘Classification’ of composite materials
�Particulate (particles, [approx.] spherical, ellipsoidal etc.).�Fibrous (e.g., fibers with axisymmetric geometry).�Hybrid (mixture of particles and fibers).
INTRODUCTION (iii)
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Book on carbon fiber composites: thermal applications and issues, 1994.
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• Effective thermal conductivity (second order tensor)“Ratio” between volumetric mean of heat flux to volumetric mean of temperature gradient for a representative volume element (Milton, 2002):
(m – matrix; d – dispersed phase)
q(x) dV =
INTRODUCTION (iv)
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• MicrostructureGeometrical arrangement of the composite phases; charac-terized by the volume fraction and by the spatial, size, orientation, and shape distributions of the dispersed phase(s) inside the matrix; the microstructure may or may not be statistically homogeneous (� dispersed phase volume fraction independent of position).
• Classification for modeling purposes�With respect to spatial distribution of the phases:
�Ordered (distribution function is ‘trivial’);�Random (distribution function is ‘non-trivial’).
�With respect to periodicity:�Periodic (representative volume element, or cell,
repeats itself along the spatial directions);�Non-periodic.
INTRODUCTION (v)
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• Illustration of 2-D microstructures(dispersed phase: cylinders of ‘infinite’ length)
INTRODUCTION (vi)
one-particle cell
multi-particle cells
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• Illustration of 3-D microstructures(dispersed phase: spheres)
INTRODUCTION (vii)
one-particle cell multi-particle
cells
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Classical review, 1976.
micrograph of tooth
microstructuralgeometries
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Determination of properties of fibers using ‘composite
theory,’ 1982.
optical micrograph
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• Interfacial thermal resistance�Origin: fabrication process.�Causes: poor mechanical and/or chemical adherence;
presence of impurities and roughness; difference between the thermal expansion coefficients of the phases; cracks.
�Effect: jump of the temperature field at the interface between the phases (barrier to heat conduction).
�Definition/model: ratio between the temperature jump to the heat flux at the interface:
INTRODUCTION (viii)
;
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Evidence of interfacial debondingand matrix cracking, 1991.
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Measurements of effective conductivity, acknowledging presence of interfacial resistance and voids, 1999, 2001.
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Critique of previous approaches, 1999, 2001.
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2-D ANSYS simulation accounting for interfacial resistance, 2003.
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issue of boundary conditions
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• Characteristics of composite materials�Presence of large number of particles or fibers.�Very disparate length scales:
�MACROSCALE: physical dimension of the composite body (m � cm);
�MesoScale: characteristic dimension of the composite microstructure, RVE or cell (mm � �m);
�microscale: characteristic dimension of the particles/fibers (�m).
• Heat conduction in composites�Transport problem in multiple scale media.�Difficult direct application of conventional analytical and
numerical methods.�Difficult determination of local temperature fields.�Macroscopic thermal behavior of a composite may be
described, once the effective conductivity is known.
INTRODUCTION (ix)
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• Bound methods(Milton, 2002; Torquato, 1991; Nomura & Chou, 1980)
�Rigorous determination of lower and upper bounds.�General spatial correlation functions for the microstructure.�Do not agree well with experimental data when phase
contrast (e.g., conductivity ratio) is high.• Analytical and semi-analytical methods
(Cheng & Torquato, 1997; Furmañski, 1991; Sangani & Yao, 1988; Sangani & Acrivos, 1983; Perrins et al., 1979)
�Simple geometries (e.g., spheres, ellipsoids).�Dilute limit (low dispersed phase volume fractions).�May treat random distributions of particles.
BRIEF LITERATURE REVIEW (i)
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• Phenomenological approaches(Dunn et al., 1993; Hasselman et al., 1993; Benveniste et al., 1990; Hatta & Taya, 1986; Hashin, 1968)
�Simplifying heuristic assumptions: mean field concept of Mori-Tanaka, equivalent inclusion method of Eshelby.
�Distributions of orientation and aspect ratio of fibers.�Interactions of neighboring fibers are neglected.�Most works assume perfect thermal contact. �Expressions for the effective thermal conductivity “valid”
for low to moderate dispersed phase volume fractions.
BRIEF LITERATURE REVIEW (ii)
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• Computational approaches
(Matt & Cruz, 2006; Duschlbauer et al., 2003; Matt & Cruz, 2002; Matt & Cruz, 2001; Rocha & Cruz, 2001; Ingber et al., 1994; Veyret et al., 1993; James & Keen, 1985)
�Flexibility to incorporate geometrical and physical effects.
�Mostly restricted to 2-D microstructures.
�Microstructure must be prescribed.
�FEM, FDM, BEM.
�So far, not systematically applied to 2-D and 3-D composites with realistic geometrical and physical features.
BRIEF LITERATURE REVIEW (iii)
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• Experimental measurements(Jiajun & Xiao-Su, 2004; Garnier et al., 2002; Mirmira & Fletcher, 2001; Mirmira, 1999)
�The truth: complete physics, hard to fully characterize.�Criticism: majority of existing methodologies overestimate
the effective thermal conductivity of composites.�Estimation of interfacial thermal resistance.�Estimation of volume fraction of pores inside the matrix.�Information about shape and orientation of fibers.�Still: difficult comparison with theoretical/numerical
predictions.
BRIEF LITERATURE REVIEW (iv)
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• Physical description
composite with 3-D microstructure
HEAT CONDUCTION IN COMPOSITES (i)
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• Mathematical formulation, dimensional strong form
HEAT CONDUCTION IN COMPOSITES (ii)
governing equations
boundary conditions
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• Mathematical formulation, non-dimensional strong form
HEAT CONDUCTION IN COMPOSITES (iii)
magnitude of interfacial thermal resistance
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• Mathematical formulation, weak form�Advantages of weak form
�Boundary condition of continuity of heat flux at the interface is naturally imposed (� easy to incorporate voids).
�Compatibility with the finite element method.�Definition of function spaces
HEAT CONDUCTION IN COMPOSITES (iv)
X’(�) allows jumps at the interface
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• Mathematical formulation, weak form�Statement
given �ij(y), Bi and G(y), find �(y) � X’(�) such that
HEAT CONDUCTION IN COMPOSITES (v)
in
in
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• Homogenization theory(Milton, 2002; Auriault & Ene, 1994; Auriault, 1991; Bakhvalov & Panasenko, 1989; Bensoussan et al., 1978; Babuska, 1975)
�Rigorous mathematical technique.�Applied to a variety of transport phenomena in
heterogeneous media.�Exact solution behavior in the limit that the ratio of length
scales tends to zero.�Transforms the transport problem defined in the original
heterogeneous medium in two easier problems to solve:�homogenized problem;�cell problem.
HEAT CONDUCTION IN COMPOSITES (vi)
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• Homogenization theorySchematic illustration of the method
HEAT CONDUCTION IN COMPOSITES (vii)
representative cell of microstructure (RVE)
homogeneous mediumheterogeneous medium
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• Homogenization theoryTechnique of asymptotic expansions using multiple scales�Appropriate for transport problems defined in statistically
homogeneous media that exhibit a natural separation of length scales: .
�Solution is written as a function of two variables:�fast variable (mesoscale coordinate);�slow variable (macroscale coordinate).
HEAT CONDUCTION IN COMPOSITES (viii)
(fast variable ) (slow variable )
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• Application of the method�Substituting the expansions for θ and v in the weak form...
�Homogenization condition:(the heat generated internally to the composite must have the same order of magnitude of the heat conducted on the macroscale)
�Five models, depending on the magnitude of the interfacial thermal resistance (Rocha & Cruz, 2001; Auriault & Ene, 1994)
HEAT CONDUCTION IN COMPOSITES (ix)
Here: Model II, a = 0.
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• Application of the method�Grouping equal powers of ε...
HEAT CONDUCTION IN COMPOSITES (x)
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• Application of the method�Choosing, first, v0
II = 0 and, next, v1II = 0...
v0II = 0
v1II = 0
HEAT CONDUCTION IN COMPOSITES (xi)
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• Application of the method�Assuming separation of variables for θ1
II(x,y)...
�Applying the periodicity property to the volume integrals (Auriault, 1991; Rocha & Cruz, 2001) and surface integrals (Rocha & Cruz, 2001)...
HEAT CONDUCTION IN COMPOSITES (xii)
representative volume element (RVE) of microstructure (assumed periodic) or periodic cell
portion of phase interface inside �pc
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• Results of the method
�Cell problem
�Homogenized problem
�Effective thermal conductivity tensor
HEAT CONDUCTION IN COMPOSITES (xiii)
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• Geometrical models for the periodic cell�Ordered arrays of spheres
�Disordered arrays of spheres
NUMERICAL METHODS (i)
voids
one-particle cell
multi-particle cells
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• Geometrical models for the periodic cell�Ordered and disordered arrays of cylinders
NUMERICAL METHODS (ii)
one-particle cubic cell
one-particle parallelepipedonal cell
multi-particle cell
voids
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• Mesh generation in 3-DProcedure uses generator NETGEN (Schöberl, 2002)
NUMERICAL METHODS (iii)
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• Mesh generation in 3-DProcedure uses generator NETGEN (Schöberl, 2002)
NUMERICAL METHODS (iv)
f�p =
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• Finite element discretization�First order isoparametric
�Solution and geometry interpolated by 1o degree polynomials.
�Simple computational implementation.�Volume and surface integrals can be evaluated
analytically.�Quadratic convergence of ke,ij .
�Accurate results for ke,ij > 100 only with excessive refinement of the mesh, a burden on computational time.
NUMERICAL METHODS (v)
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• Finite element discretization�Second order isoparametric
�Solution and geometry interpolated by 2o degree polynomials.
�More sophisticated computational implementation.�Volume and surface integrals must be evaluated
numerically.�Cubic convergence of ke,ij .
�Accurate results for ke,ij > 100 without the need for an excessive refinement of the mesh.
NUMERICAL METHODS (vi)
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• Finite element discretization�Cell problem
NUMERICAL METHODS (vii)
bilinear operator, symmetric and positive-definite
linear functional related to direction of temperature gradient imposed externally
bilinear and symmetric operator
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• Finite element discretization�Treatment of volume integrals
Galerkin Method (Reddy, 1993; Hughes, 1987)
NUMERICAL METHODS (viii)
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• Finite element discretization
�Treatment of surface integral
�Duplication of degrees of freedom associated with global nodes situated on the interface �
�Modification of tetrahedra connectivity that possess at least one node on �
�Calculation of the jumps of the functions (weight, test) through the element surfaces on �
�Integration of the product of the jumps in �
�Sum of the resulting integrals to the appropriate components in the global stiffness matrix
NUMERICAL METHODS (ix)
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BEFORE DUPLICATION
Duplication of degrees of freedom andModification of tetrahedra connectivity
AFTER DUPLICATION
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• Contributions associated with node of vertex A�Weight function restricted to node A
�Jump of weight function across �ee’
�Jump of temperature across �ee’
NUMERICAL METHODS (x)
0
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• Contributions associated with node of vertex A
NUMERICAL METHODS (xi)
sum to component KAA
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• Algorithm
For each node situated on ��Identification of neighboring nodes (corner and median)�Identification of its duplicates and of duplicates of
neighboring nodes �Definition of weight function restricted to node and
tetrahedra which share the node on ��Calculation of jumps of weight and temperature functions
across tetrahedra surfaces which share the node on ��Evaluation of resulting integrals �Sum of resulting integrals to the appropriate components in
the global stiffness matrix
NUMERICAL METHODS (xii)
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• Discrete system of equations
NUMERICAL METHODS (xiii)
Global stiffness matrix and global forcing vector assembled from elemental matrices and elemental vectors, imposing periodic boundary conditions on the outer surfaces of �pc
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• Iterative method (global minimum residual, GMRES, Paige & Saunders, 1975)
�Appropriate for linear systems of equations whose coefficient matrices are symmetric, but not necessarily positive-definite
�Stopping criterion: based on the norm L2 of the residual vector, subject to a user-prescribed tolerance
NUMERICAL METHODS (xiv)
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• 2-D effort: smaller than the 3-D effort, and it is (still) valuable for random arrangements
• Simple cubic array of spheres with uniform interfacial thermal resistance (and, also, with perfect thermal contact)
• Disordered array of spheres with uniform interfacial thermal resistance and pores in the matrix (illustrative computations)
• Parallelepipedonal array of cylinders with uniform interfacial thermal resistance
• Tentative comparison with experimental data
RESULTS (i)
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Extension to 3-D
cubic array
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critical thermal contact resistance
0,71780,71801,43491,43490,60150,60161,30471,30470,51
0,72320,72341,42541,42550,60910,60921,29831,29830,50
0,74980,74991,37831,37830,64640,64651,26631,26630,45
0,77630,77641,33221,33210,68330,68341,23471,23460,40
0,80290,80301,28701,28700,72030,72031,20361,20360,35
0,82980,82991,24291,24280,75770,75771,17291,17280,30
0,85690,85691,19981,19970,79570,79571,14281,14280,25
0,88450,88451,15781,15770,83480,83481,11321,11310,20
0,91260,91261,11681,11680,87420,87421,08411,08410,15
0,94120,94121,07691,07680,91500,91501,05561,05560,10
0,97030,97031,03801,03790,95690,95691,02751,02750,05
R = 20000R = 5000R = 30R = 5
α = 10000, Rc = 9999α = 10, Rc = 9
c
Simple cubic array of spheresValidation with semi-analytical results by Cheng & Torquato (1997)
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Simple cubic array of spheres with uniform interfacial thermal resistanceValidation with semi-analytical results by Cheng & Torquato (1997)Convergence plots of absolute error
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particle thermal conductivity dominates
contact thermal resistance dominates
Simple cubic array of spheresDistinct behaviors for the effective thermal conductivity as a function of the magnitude of the interfacial thermal resistance
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Disordered array of spheres with uniform interfacial thermal resistance and pores within the matrix (illustrative calculations, acurate: novelty!)
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1,192010,9000,824010,9000,818210,900ρf, max = 14
1,19645,88270,82621,12140,82040,898113,5
1,20234,13710,82851,08390,82260,895612
1,192010,9000,824010,9000,818210,900
1,21602,39720,83490,99910,82860,89028
1,22831,93520,84010,96190,83350,88526
Bi = 102Bi = 10-1Bi = 10-6
ρf
c = 0,10, ρp = 5 e α = 100
Parallelepipedonal array of cylinders
Validation with rule-of-mixtures results, and results from the expression by Hasselman & Johnson (1987) for unidirectional fibrous composites with low c
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9,09425,030,1410,2784,36676,02200,14060,27850,70
5,24411,270,2490,3623,32924,55680,24920,36190,60
3,6276,9770,3540,4532,64413,57720,35410,45300,50
2,68474,85280,46130,55202,14322,86710,46130,55200,40
2,05403,56280,57430,65841,75682,31840,57430,65840,30
1,59902,66740,69710,77101,44901,86740,69710,77100,20
1,25861,95860,83560,88721,20051,46470,83560,88720,10
Bi = 104Bi = 10-6Bi = 104Bi = 10-6
α = 1000α = 10
c
Parallelepipedonal array ρp = ρf = 20
Parallelepipedonal array of cylinders
Sample of new results
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COMPARISON WITHEXPERIMENTAL DATA (tentative)
• Experimental work by Mirmira (1999)�Measurements of longitudinal and transverse effective
thermal conductivities of short fiber composites as a function of temperature
�Characteristics of composites �Matrix: cianate ester�Dispersed phase: carbon fibers (DKE X, DKA X,
K22XX)�Fiber volume fractions in fabricated composites:
55%, 65% and 75%�Aspect ratio of fibers: 20�Pores volume fraction: 4% (estimation)�Estimated interfacial thermal conductance: 105 W/m2 K�Fibers are distributed in parallel planes and randomly
oriented
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COMPARISON WITHEXPERIMENTAL DATA (tentative)
• Numerical results: application of developed methodology to the parallelepipedonal array of cylinders
• Analytical results: expressions for the effective conductivities obtained by various authors for arrays of cylindrical fibers randomly arranged in space
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159,3057,0869,60106,0431,5562,1373,0067,9746,49373,15
148,7252,2870,0098,5228,8264,7067,6262,5648,22353,15
145,0650,6670,5095,9427,9065,0965,7860,7249,14333,15
141,3449,0471,0093,3226,9866,0663,9258,8749,64313,15
152,3153,8871,15101,0629,7366,5869,4464,3750,12293,15
Analit.Num.Exp.Analít.Num.Exp.Analít.Num.Exp.
75%65%55%
T (K)
Composites with DKA X type fibers (longitudinal conductivity)
Symbols: Exp. = experimental Num. = numerical Analít. = analytical (Dunn et al., 1993)
COMPARISON WITHEXPERIMENTAL DATA (tentative)
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6,9215,377,744,675,868,803,413,636,65373,15
6,2914,007,794,255,338,803,103,306,75353,15
6,0813,557,794,105,158,973,003,196,76333,15
5,8813,097,813,964,989,082,903,086,80313,15
6,5014,467,834,395,519,103,213,416,80293,15
Analít.Num.Exp.Analít.Num.Exp.Analít.Num.Exp.
75%65%55%
T (K)
Composites with DKA X type fibers (transverse conductivity)
COMPARISON WITHEXPERIMENTAL DATA (tentative)
Symbols: Exp. = experimental Num. = numerical Analít. = analytical (Dunn et al., 1993)
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Disordered array of cylinders with interfacial thermalresistance and pores (cp = 0,5%) (novelty!)
Test case 1: a = 250 e Bi = 10Test case 2: a = 250 e Bi = 10-6
Test case 3: k11 = k22 = k33 = 250, k12 = k13 = k23 = 200 e Bi = 10Test case 4: k11 = k22 = k33 = 250, k12 = k13 = k23 = 200 e Bi = 10-6
1,0801,1801,2823
0,83360,84970,86504
0,83360,84970,86492
1,0831,1891,2991
Effective thermal conductivity c = 13% and ρf = 1,5
Test case
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• Implementation of more representative 3-D geometric models for the microstructures of composite materials
• Implementation of variable interfacial thermal resistance on the surface of the fibers (Duschlbauer et al., 2003; Fletcher, 2001)
• Appropriate treatment of microscale for analysis of configurations that are close to maximum packing
• Extension of developed methodology to determine effective mechanical properties of composite materials (for example, effective elastic modulus
• Consideration of the effect of properties varying with temperature
DOABLE FUTURE WORKS (i)
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ACKNOWLEDGEMENTS
• PEM/COPPE/UFRJ• CNPq• FAPERJ• CAPES• Current and former graduate and
undergraduate students (room for more…)
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THE END !!
THANK YOU !!
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ALGUNS TRABALHOS PUBLICADOS ATÉ O MOMENTO
• Matt, C. F. and Cruz, M. E., 2004, Calculation of the effective conductivity of disordered particulate composites with interfacial resistance, Proc. 37th AIAA Thermophysics Conference, Portland, Oregon, AIAA 2004-2458, pp. 1 – 12
• Matt, C. F. and Cruz, M. E., 2004, Enhancement of the thermal conductivity of composites reinforced with anisotropic short fibers, submitted to Journal of Enhanced Heat Transfer
• Matt, C. F., 2003, Condutividade térmica efetiva de materiais compósitos com microestruturas tridimensionais e resistência térmica interfacial, Tese de Doutorado, COPPE/UFRJ, Programa de Engenharia Mecânica
• Matt, C. F. and Cruz, M. E., 2002, Application of a multiscale finite-elementapproach to calculate the effective conductivity of particulate media, Computationaland Applied Mathematics, vol. 21, pp. 429 – 460
• Matt, C. F. and Cruz, M. E., 2002, Effective conductivity of longitudinally-alignedcomposites with cylindrically orthotropic short fibers, Proc. 12th International HeatTransfer Conference, Grenoble, France, vol. 3, pp. 21 – 26
• Matt, C. F. and Cruz, M. E., 2001, Calculation of the effective conductivity of ordered short-fiber composites, Proc. 35th AIAA Thermophysics Conference, Anaheim, California, AIAA 2001-2968, pp. 1 - 11
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Cálculo das contribuições associadas ao nó mediano M em ΓΓΓΓ
� Definição da função peso
� Cálculo do salto da função peso
� Cálculo do salto da função teste
0
somar ao componente KMA
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CÁLCULO DAS INTEGRAIS DE SUPERFÍCIE RESULTANTES
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• Finite element discretization�Cell problem
NUMERICAL METHODS (vii)
bilinear operator, symmetric and positive-definite
linear functional related to direction of temperature gradient imposed externally
bilinear and symmetric operator
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• Finite element discretization�Treatment of volume integrals
Galerkin Method (Reddy, 1993; Hughes, 1987)
NUMERICAL METHODS (viii)
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• Finite element discretization
�Treatment of surface integral
�Duplication of degrees of freedom associated with global nodes situated on the interface Gamma.
�Modification of connectivity of tetrahedra that possess at least one node on Gamma.
�Calculation of the jumps of the functions in the integrand through the element surfaces on Gamma.
�Integration of the products of the jumps over Gamma.
�Sum of the resulting integrals to the appropriate components in the global stiffness matrix.
NUMERICAL METHODS (ix)
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BEFORE DUPLICATION
Duplication of degrees of freedom.Modification of connectivity of tetrahedra.
AFTER DUPLICATION
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• Contributions associated with node of vertex A�Weight function restricted to node A
�Jump of weight function across Gammaee’
�Jump of temperature across Gammaee’
NUMERICAL METHODS (x)
0
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• Contributions associated with node of vertex A
NUMERICAL METHODS (xi)
sum to component KAA
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• Algorithm
For each node situated on Gamma
�Identification of neighboring nodes (corner and median).�Identification of its duplicates and of duplicates of
neighboring nodes.�Definition of weight function restricted to node and to
tetrahedra which share the node on Gamma.
�Calculation of jumps of weight and temperature functions across tetrahedra surfaces which share the node on Gamma.
�Evaluation of resulting integrals.�Sum of resulting integrals to the appropriate components in
the global stiffness matrix.
NUMERICAL METHODS (xii)
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• Discrete system of equations
NUMERICAL METHODS (xiii)
Global stiffness matrix and global forcing vector areassembled from elemental matrices and elemental vectors, imposing periodic boundary conditions on the outer surfaces of Omegapc.
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• Iterative methodGlobal minimum residual, GMRES (Paige & Saunders, 1975)
�Appropriate for linear systems of equations whose coefficient matrices are symmetric, but not necessarilypositive-definite.
�Stopping criterion: based on the norm L2 of the residual vector, subject to a user-prescribed tolerance Sigma.
NUMERICAL METHODS (xiv)
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• 2-D effort: ‘smaller’ than the 3-D effort, and it is (still) valuable for random arrangements.
• Simple cubic array of spheres with uniform interfacial thermal resistance (and, also, with perfect thermal contact).
• Disordered array of spheres with uniform interfacial thermal resistance and pores in the matrix (illustrative computations).
• Parallelepipedonal array of cylinders with uniform interfacial thermal resistance.
• Comparison with experimental data: still tentative!
RESULTS
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Tool developed, but not systematically used.
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Microscale models validated.
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Microscale models useful.
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Extension to 3-D
cubic array
Microscalemodels can be useful in 3-D.
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critical thermal contact resistance
0,71780,71801,43491,43490,60150,60161,30471,30470,51
0,72320,72341,42541,42550,60910,60921,29831,29830,50
0,74980,74991,37831,37830,64640,64651,26631,26630,45
0,77630,77641,33221,33210,68330,68341,23471,23460,40
0,80290,80301,28701,28700,72030,72031,20361,20360,35
0,82980,82991,24291,24280,75770,75771,17291,17280,30
0,85690,85691,19981,19970,79570,79571,14281,14280,25
0,88450,88451,15781,15770,83480,83481,11321,11310,20
0,91260,91261,11681,11680,87420,87421,08411,08410,15
0,94120,94121,07691,07680,91500,91501,05561,05560,10
0,97030,97031,03801,03790,95690,95691,02751,02750,05
R = 20000R = 5000R = 30R = 5
α = 10000, Rc = 9999α = 10, Rc = 9
c
Simple cubic array of spheresValidation with semi-analytical results by Cheng & Torquato (1997)
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Simple cubic array of spheres with uniform interfacial thermal resistanceValidation with semi-analytical results by Cheng & Torquato (1997)Convergence plots of absolute error
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particle thermal conductivity dominates
contact thermal resistance dominates
Simple cubic array of spheresDistinct behaviors for the effective thermal conductivity as a function of the magnitude of the interfacial thermal resistance
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Disordered array of spheres with uniform interfacialthermal resistance and pores within the matrixIllustrative calculations, accurate: novelty!
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1,192010,9000,824010,9000,818210,900ρf, max = 14
1,19645,88270,82621,12140,82040,898113,5
1,20234,13710,82851,08390,82260,895612
1,192010,9000,824010,9000,818210,900
1,21602,39720,83490,99910,82860,89028
1,22831,93520,84010,96190,83350,88526
Bi = 102Bi = 10-1Bi = 10-6
ρf
c = 0,10, ρp = 5 e α = 100
Parallelepipedonal array of cylinders (Matt & Cruz, 2006)
Validation against rule-of-mixtures results, and results from the expression by Hasselman & Johnson (1987) for unidirectional fibrous composites with low c.
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9,09425,030,1410,2784,36676,02200,14060,27850,70
5,24411,270,2490,3623,32924,55680,24920,36190,60
3,6276,9770,3540,4532,64413,57720,35410,45300,50
2,68474,85280,46130,55202,14322,86710,46130,55200,40
2,05403,56280,57430,65841,75682,31840,57430,65840,30
1,59902,66740,69710,77101,44901,86740,69710,77100,20
1,25861,95860,83560,88721,20051,46470,83560,88720,10
Bi = 104Bi = 10-6Bi = 104Bi = 10-6
α = 1000α = 10
c
Parallelepipedonal array ρp = ρf = 20
Parallelepipedonal array of cylinders
Sample of new results!
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Disordered array of cylinders with interfacial thermalresistance and pores (cpores = 0,5%) (novelty!)
Test case 1: a = 250 e Bi = 10Test case 2: a = 250 e Bi = 10-6
Test case 3: k11 = k22 = k33 = 250, k12 = k13 = k23 = 200 e Bi = 10Test case 4: k11 = k22 = k33 = 250, k12 = k13 = k23 = 200 e Bi = 10-6
1,0801,1801,2823
0,83360,84970,86504
0,83360,84970,86492
1,0831,1891,2991
Effective thermal conductivity c = 13% and ρf = 1,5
Test case
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• Implementation of more representative 3-D geometrical models for the microstructures of composite materials.
• Implementation of variable interfacial thermal resistance on the surface of the fibers (Duschlbauer et al., 2003; Fletcher, 2001).
• Appropriate treatment of microscale for analysis of configurations that are close to maximum packing.
• Extension of developed methodology to determine effective mechanical properties of composite materials (for example, effective elastic moduli).
• Consideration of the effect of properties varying with temperature.
DOABLE FUTURE WORKS
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Temperature dependence.
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ACKNOWLEDGEMENTS
• PEM/COPPE/UFRJ• CNPq• FAPERJ• CAPES• Current and former graduate and
undergraduate students (room for more…)
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THE END !!
THANK YOU !!