Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with...
Transcript of Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with...
![Page 1: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/1.jpg)
Isogeometric mortar methods with applications incontact mechanics
PhD dissertation defense
Brivadis Ericka
Supervisor: Annalisa Buffa
Doctor of Philosophy in ComputationalMechanics and Advanced Materials,XXVIII Cycle (2012-2015)
Pavia, January 19th, 2017
![Page 2: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/2.jpg)
Context of the work
This research work is part of a project between the of Pavia and
the company which aims to treat complex contact problemswith isogeometric analysis.
It has been done in collaboration with A. Buffa ( Pavia), G. Elber
( ), M. Martinelli ( Pavia), F. Massarwi ( ), L.Wunderlich ( ) and B. Wohlmuth ( ).
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 2 / 45
![Page 3: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/3.jpg)
Outline
1 IGA basics
2 Isogeometric mortar methods
3 Applications in contact mechanics
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 3 / 45
![Page 4: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/4.jpg)
IGA basicsUnivariate B-Splines
The parametric unit interval
0 1
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 4 / 45
![Page 5: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/5.jpg)
IGA basicsUnivariate B-Splines
The parametric unit interval is split by the breakpointsζj (j = 1, . . . ,N) leading to a parametric mesh.
0 115
25
35
45
U = 0, 15 ,
25 ,
35 ,
45 , 1
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 4 / 45
![Page 6: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/6.jpg)
IGA basicsUnivariate B-Splines
The parametric unit interval is split by the breakpointsζj (j = 1, . . . ,N) leading to a parametric mesh.
0 115
25
35
45
U = 0, 15 ,
25 ,
35 ,
45 , 1
Each breakpoint ζj has a multiplicity mj . The breakpoints and theirmultiplicities define the knot vector
Ξ = ζ1, . . . , ζ1︸ ︷︷ ︸m1 times
, ζ2, . . . , ζ2︸ ︷︷ ︸m2 times
, . . . , ζN , . . . , ζN︸ ︷︷ ︸mN times
.
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 4 / 45
![Page 7: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/7.jpg)
IGA basicsUnivariate B-Splines
The parametric unit interval is split by the breakpointsζj (j = 1, . . . ,N) leading to a parametric mesh.
0 115
25
35
45
U = 0, 15 ,
25 ,
35 ,
45 , 1
Each breakpoint ζj has a multiplicity mj . The breakpoints and theirmultiplicities define the knot vector
Ξ = ζ1, . . . , ζ1︸ ︷︷ ︸m1 times
, ζ2, . . . , ζ2︸ ︷︷ ︸m2 times
, . . . , ζN , . . . , ζN︸ ︷︷ ︸mN times
.
Given a degree p and a knot vector Ξ, the univariate (p + 1)-orderB-Splines can be defined recursively.
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 4 / 45
![Page 8: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/8.jpg)
IGA basicsUnivariate B-Splines
Important properties
0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 10
0.2
0.4
0.6
0.8
1
0 115
25
35
45
Univariate quadratique B-Splinefunctions defined on the knot vector
Ξ = 0, 0, 0, 15 ,
25 ,
25 ,
35 ,
45 , 1, 1, 1.
We note the C0 continuity inζj = 2
5 .
Each Bpi is a piecewise positive polynomial of degree p and has a
local support.
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 5 / 45
![Page 9: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/9.jpg)
IGA basicsUnivariate B-Splines
Important properties
0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 10
0.2
0.4
0.6
0.8
1
0 115
25
35
45
Univariate quadratique B-Splinefunctions defined on the knot vector
Ξ = 0, 0, 0, 15 ,
25 ,
25 ,
35 ,
45 , 1, 1, 1.
We note the C0 continuity inζj = 2
5 .
Each Bpi is a piecewise positive polynomial of degree p and has a
local support.On each element, at most (p + 1) functions have non-zero values.
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 5 / 45
![Page 10: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/10.jpg)
IGA basicsUnivariate B-Splines
Important properties
0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 10
0.2
0.4
0.6
0.8
1
0 115
25
35
45
Univariate quadratique B-Splinefunctions defined on the knot vector
Ξ = 0, 0, 0, 15 ,
25 ,
25 ,
35 ,
45 , 1, 1, 1.
We note the C0 continuity inζj = 2
5 .
Each Bpi is a piecewise positive polynomial of degree p and has a
local support.On each element, at most (p + 1) functions have non-zero values.The inter-element continuity is defined by the breakpoint multiplicity:the basis is Cp−mj at ζj .
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 5 / 45
![Page 11: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/11.jpg)
IGA basicsMultivariate B-Splines and NURBS
For any direction δ, we have pδ, Uδ, Ξδ and nδ. Then we introduce
U = (U1 × U2 × . . .× Ud),Ξ = (Ξ1 × Ξ2 × . . .× Ξd) andI = i = (i1, . . . , id) : 1 ≤ iδ ≤ nδ
to define multivariate B-Splines by a tensor product of univariateB-Splines.
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 6 / 45
![Page 12: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/12.jpg)
IGA basicsMultivariate B-Splines and NURBS
For any direction δ, we have pδ, Uδ, Ξδ and nδ. Then we introduce
U = (U1 × U2 × . . .× Ud),Ξ = (Ξ1 × Ξ2 × . . .× Ξd) andI = i = (i1, . . . , id) : 1 ≤ iδ ≤ nδ
to define multivariate B-Splines by a tensor product of univariateB-Splines.
Given a set of positive weights ωi, i ∈ I, the Non-UniformRational B-Splines functions are defined as rational functions ofmultivariate B-Spline functions by
Npi (ζ) =
ωi Bpi (ζ)∑
i∈I ωi Bpi (ζ)
.
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 6 / 45
![Page 13: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/13.jpg)
IGA basicsMultivariate B-Splines and NURBS
For any direction δ, we have pδ, Uδ, Ξδ and nδ. Then we introduce
U = (U1 × U2 × . . .× Ud),Ξ = (Ξ1 × Ξ2 × . . .× Ξd) andI = i = (i1, . . . , id) : 1 ≤ iδ ≤ nδ
to define multivariate B-Splines by a tensor product of univariateB-Splines.
Given a set of positive weights ωi, i ∈ I, the Non-UniformRational B-Splines functions are defined as rational functions ofmultivariate B-Spline functions by
Npi (ζ) =
ωi Bpi (ζ)∑
i∈I ωi Bpi (ζ)
.
Sp(Ξ) is the spline space spanned by the functions Spi (ζ), Np(Ξ) the
NURBS space spanned by the functions Npi (ζ).
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 6 / 45
![Page 14: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/14.jpg)
IGA basicsGeometrical parametrisation
In CAGD, NURBS and splines are widely spread as they are capable ofaccurately describing various geometries.Given a set of Control Points Ci ∈ Rd , i ∈ I, a NURBS parametrization ofa curve (d=1), a surface (d = 2) or a solid (d = 3) is given by
F : Ω→ Ω F(ζ) =∑i∈I
Ci Npi (ζ).
F
→
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 7 / 45
![Page 15: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/15.jpg)
IGA basicsGeometrical approximation
The computational domain Ω is generally decomposed into Knon-overlapping subdomains, i.e.,
Ω =K⋃
k=1
Ωk , Ωi ∩ Ωj = ∅, i 6= j .
Figure: A tire kindly given by
Some of the reasons:
Geometrical definition purposes
Different materials
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 8 / 45
![Page 16: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/16.jpg)
IGA basicsSome model problems
Strong formulations
Laplace problem−∆u = f in Ω,u = uD on ΓD ,∇u · n = l on ΓN .
Static mechanical balance problem−div(σ) = f in Ω,
u = uD on ΓD ,σ · n = l on ΓN .
under the following assumptions:
linear elasticityε = 1
2 (∇u + (∇u)T ) =∇su,
small displacement-deformationσ = λLame tr(ε) I + 2 µLame ε.
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 9 / 45
![Page 17: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/17.jpg)
IGA basicsSome model problems
Weak formulations
Find u ∈ VD such that
a(u, v) = f (v), ∀v ∈ V0.
Laplace problem
a(u, v) =
∫Ω∇u ·∇v dx ,
f (v) =
∫Ωf ·v dx +
∫ΓN
l ·v ds.
Static mechanical balance problem
a(u, v) =
∫ΩλLame div(u) · div(v) +
2µLame∇su :∇sv dx ,
f (v) =
∫Ω
f · v dx +
∫ΓN
l · v ds.
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 10 / 45
![Page 18: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/18.jpg)
IGA basicsMotivations
Each Ωk is parametrised by a NURBS parametrization Fk .
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 11 / 45
![Page 19: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/19.jpg)
IGA basicsMotivations
Each Ωk is parametrised by a NURBS parametrization Fk .
Each subdomain is discretized independently→ non-conforming meshes at the subdomain interfaces !
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 11 / 45
![Page 20: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/20.jpg)
IGA basicsMotivations
Each Ωk is parametrised by a NURBS parametrization Fk .
Each subdomain is discretized independently→ non-conforming meshes at the subdomain interfaces !
The approximation space on Ωk is
Vk,h = vk = vk F−1k , vk ∈ (Npk (Ξk))dP,
i.e., a push-forward of a NURBS space.
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 11 / 45
![Page 21: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/21.jpg)
IGA basicsMotivations
Each Ωk is parametrised by a NURBS parametrization Fk .
Each subdomain is discretized independently→ non-conforming meshes at the subdomain interfaces !
The approximation space on Ωk is
Vk,h = vk = vk F−1k , vk ∈ (Npk (Ξk))dP,
i.e., a push-forward of a NURBS space.
at the interfaces ?
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 11 / 45
![Page 22: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/22.jpg)
Where we are
1 IGA basics
2 Isogeometric mortar methods
3 Applications in contact mechanics
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 12 / 45
![Page 23: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/23.jpg)
Isogeometric mortar methodsThe discrete mortar problem
We define the interface γk1k2 by γk1k2 = ∂Ωk1 ∩ ∂Ωk2 ∀k1, k2 such that1 ≤ k1 < k2 ≤ K .For each interface, one of the adjacent subdomains is chosen as themaster side and the other one as the slave side.The skeleton Γ is the union of all the interfaces.
n1
n2
Ω1
Ω2Ω3
γ2
ΩM(2)
γ1
ΩS(1)
ΩM(1)
ΩS(2) n1
n2
Ω1
Ω2
Ω3γ1
ΩS(1)
γ2
ΩS(2)
ΩM(1)
ΩM(2)
Figure: Geometrical conforming case (left) and slave conforming case (right)
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 13 / 45
![Page 24: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/24.jpg)
Isogeometric mortar methodsThe discrete mortar problem
Mortar method ⇒ weak continuity imposition of u at each interface.
Discrete mortar saddle point formulation
Find (uh, λh) ∈ Vh ×Mh, such that
a(uh, vh) + b(vh, λh) = f (vh), vh ∈ Vh,
b(uh, φh) = 0, φh ∈ Mh,
with Vh =K∏
k=1
Vk,h and b(uh, φh) =
∫Γuh · φh ds.
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 14 / 45
![Page 25: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/25.jpg)
Isogeometric mortar methodsThe discrete mortar problem
Mortar method ⇒ weak continuity imposition of u at each interface.
Discrete mortar saddle point formulation
Find (uh, λh) ∈ Vh ×Mh, such that
a(uh, vh) + b(vh, λh) = f (vh), vh ∈ Vh,
b(uh, φh) = 0, φh ∈ Mh,
with Vh =K∏
k=1
Vk,h and b(uh, φh) =
∫Γuh · φh ds.
Choose properly Mh→ Two requirements on each interface to have an optimal method
an appropriate approximation order for the multiplier space
a uniform inf-sup stability between the primal and multiplier spaces
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 14 / 45
![Page 26: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/26.jpg)
Where we are
1 IGA basics
2 Isogeometric mortar methodsThe discrete mortar problemLagrange multiplier spacesA key issue: the evaluation of the mortar integrals
3 Applications in contact mechanicsContact problem definitionExample of treatment of deformable-deformable contact in aLagrange multiplier formulation
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 15 / 45
![Page 27: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/27.jpg)
Isogeometric mortar methodsLagrange multiplier spaces
Mh =L∏
l=1
Ml ,h where Ml ,h is the multiplier space on an interface.
From now on, we focus on the one interface case.
Mh is generated from a parametric multiplier space Mh.
We consider the following choices for this latter one:
choice 1: Mh ⊆ SpS (Γ),
choice 2: Mh ⊆ SpS−1(Γ),
choice 3: Mh ⊆ SpS−2(Γ).
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 16 / 45
![Page 28: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/28.jpg)
Isogeometric mortar methodsLagrange multiplier spaces
Choice 1
Mh ⊆ SpS (Γ)A boundary modification can be necessary.
0 h 2h 3h
−1
0
1
2B
2 i
ζ
Figure: Left boundary modification of B-Spline functions of degree p = 3
→ A degree reduction in the boundary elements.
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 17 / 45
![Page 29: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/29.jpg)
Isogeometric mortar methodsLagrange multiplier spaces
Choice 2
Mh ⊆ SpS−1(Γ)
Chapelle-Bathe1 tests to estimate the stability constant
10−3
10−2
10−1
10−2
10−1
100
Inverse of the number of elements
Sta
bili
ty c
on
sta
nt
P8−P7
P7−P6
P6−P5
P5−P4
P4−P3
P3−P2
P2−P1
P1−P0
O(E−1
)
→ Unstable pairings1
The inf-sup test. D. Chapelle, K. J. Bathe. Computers & Structures, Vol. 47 (1993), No. 4/5, pp. 537-545
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 18 / 45
![Page 30: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/30.jpg)
Isogeometric mortar methodsLagrange multiplier spaces
Choice 3
Mh ⊆ SpS−2(Γ)
Proof for the pS/pS − 2 pairing in 2D
infφ∈SpS−2
supu∈SpS
0
∫Γφ u ds
‖u‖L2‖φ‖L2
≥ α
Regularity of the mapping
Quasi-uniformity of the meshes
Choose u ∈ SpS0 such that ∂2
xx u = φ
D : SpS0 → SpS−1 \ R and D : SpS−1 \ R→ SpS−2 are bijections
Work with Sobolev norms
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 19 / 45
![Page 31: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/31.jpg)
Isogeometric mortar methodsLagrange multiplier spaces
infφ∈SpS−2
supu∈SpS
0
∫Γφ u ds
‖u‖L2‖φ‖L2
≥ α
From parametric to physical space
infφ∈Mh
supu∈Wh
∫Γ φ u ds
‖u‖L2‖φ‖L2
≥ α
Wh = u|Γ , u ∈ VS ,h ∩ H10 (Γ)
Variable change:∫
Γ φ u ds =∫
Γφ u ρ ds,
Super-convergence resultsa
Π : L2(Γ)→ Mh ‖φρ− Π(φρ)‖L2(Γ) ≤ Ch‖φ‖L2(Γ)
aSuperconvergence in Galerkin Finite Element Methods. L. Wahlbin. Lecture Notes in Mathematics (1995),
Vol. 1605, Springer, Berlin
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 19 / 45
![Page 32: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/32.jpg)
Isogeometric mortar methodsLagrange multiplier spaces
infφ∈SpS−2
supu∈SpS
0
∫Γφ u ds
‖u‖L2‖φ‖L2
≥ α
From parametric to physical space
infφ∈Mh
supu∈Wh
∫Γ φ u ds
‖u‖L2‖φ‖L2
≥ α
Wh = u|Γ , u ∈ VS ,h ∩ H10 (Γ)
Variable change:∫
Γ φ u ds =∫
Γφ u ρ ds,
Super-convergence resultsa
For h small enough, the stability holds !
aSuperconvergence in Galerkin Finite Element Methods. L. Wahlbin. Lecture Notes in Mathematics (1995),
Vol. 1605, Springer, Berlin
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 19 / 45
![Page 33: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/33.jpg)
Isogeometric mortar methodsLagrange multiplier spaces
Dependence of the stability constant on the degree
0 2 4 6 8 10 12 14
10−0.4
10−0.3
10−0.2
10−0.1
100
p
Sta
bili
ty c
on
sta
nt
Pp−Pp
Pp−P(p−2)
→ Exponential dependence in p
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 20 / 45
![Page 34: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/34.jpg)
Isogeometric mortar methodsLagrange multiplier spaces - Summary
For VS ,h a push-forward of a NURBS space of degree pS , and :
Mh a push-forward of a spline space of degree pS=⇒ problems at cross points.
Mh a push-forward of a spline space of degree pS − 1=⇒ stability is NOK.
Mh a push-forward of a spline space of degree pS − 2=⇒ stability is OK.And more generally, for a push-forward of a spline space of degreepS − 2k (k ∈ N and k > 1).
Pairing pS − pS Pairing pS − (pS − 2)
||u − uh||L2(Ω) pS + 1 pS + 12
||λ− λh||L2(Γ) pS − 12 pS − 1
Table: Optimal order of convergence of isogeometric mortar methods
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 21 / 45
![Page 35: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/35.jpg)
Where we are
1 IGA basics
2 Isogeometric mortar methodsThe discrete mortar problemLagrange multiplier spacesA key issue: the evaluation of the mortar integrals
3 Applications in contact mechanicsContact problem definitionExample of treatment of deformable-deformable contact in aLagrange multiplier formulation
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 22 / 45
![Page 36: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/36.jpg)
Isogeometric mortar methodsA key issue: the evaluation of the mortar integrals
We recall the bilinear form
b(u, φ) =
∫ΓS
φ · uS |ΓSds −
∫ΓS
φ · uM |ΓMds.
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 23 / 45
![Page 37: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/37.jpg)
Isogeometric mortar methodsA key issue: the evaluation of the mortar integrals
We recall the bilinear form
b(u, φ) =
∫ΓS
φ · u− ds −∫
ΓS
φ · u+ ds.
→ A challenge: the evaluation of the second integral due to theproduct of functions which are defined on different meshes.
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 23 / 45
![Page 38: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/38.jpg)
Isogeometric mortar methodsA key issue: the evaluation of the mortar integrals
We recall the bilinear form
b(u, φ) =
∫ΓS
φ · u− ds −∫
ΓS
φ · u+ ds.
→ A challenge: the evaluation of the second integral due to theproduct of functions which are defined on different meshes.
Finite element litterature
Dedicated quadrature rules have been studied.a,b
Approximating these integrals taking the quadrature of one side isinducing large (consistency or approximation) errors.
aNumerical quadrature and mortar methods. L. Cazabeau, C. Lacour, Y. Maday. Computational Science for
the 21st Century, John Wiley and Sons (1997), pp. 119-128b
The influence of quadrature formulas in 2D and 3D mortar element methods. Y. Maday, F. Rapetti, B.I.Wohlmuth. Recent developments in domain decomposition methods. Some papers of the workshop on domaindecomposition. ETH Zurich, Switzerland, June 7-8. 2001, pp. 203-221. Springer (2002)
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 23 / 45
![Page 39: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/39.jpg)
Isogeometric mortar methodsA key issue: the evaluation of the mortar integrals
Slave integration approachOne could expect the sensitivity with respect to the slavequadrature to be less than for finite element methods.
a(uh, vh) +∑−(v−h − v+
h ) λh = f (vh), vh ∈ Vh,∑−(u−h − u+
h ) φh = 0, φh ∈ Mh.
Mixed integration approachWe also consider another approach which leads to a non-symmetricsaddle point problem. It is motivated by different requirements forthe integration of the primal and multiplier test functions.
a(uh, vh) +∑−v−h λh −
∑+v
+h λh = f (vh), vh ∈ Vh,∑
−(u−h − u+h ) φh = 0, φh ∈ Mh.
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 24 / 45
![Page 40: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/40.jpg)
Isogeometric mortar methodsA key issue: the evaluation of the mortar integrals
Numerical results
Problem settings
Standard Poisson problem−∆u = f
Analytical solution
0
0.5
1
−1
0
1−2
−1
0
1
2
xy0 0.2 0.4 0.6 0.8 1
−5
0
5
x
λ
Boundary conditionsimposed such that no needto handle a cross point
slave
master
meshes at refinement level 1
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 25 / 45
![Page 41: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/41.jpg)
Isogeometric mortar methodsA key issue: the evaluation of the mortar integrals
Numerical results - Slave integration approachL2 primal and multiplier errors as a function of the number of additionalquadrature points
0 1 2 3 4 5 6
10−10
10−5
Refinement level number
||u−
uh||L
2(Ω
)
0
1
2
3
4
Exact
0 1 2 3 4 5 610
−12
10−10
10−8
10−6
10−4
Refinement level number
||∂u
∂n−
λh||L
2(Γ
)
0
1
2
3
4
Exact
P5− P5
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 26 / 45
![Page 42: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/42.jpg)
Isogeometric mortar methodsA key issue: the evaluation of the mortar integrals
Numerical results - Mixed integration approachL2 primal error as a function of the number of additional quadrature points
0 1 2 3 4 5 6 7
10−12
10−10
10−8
10−6
10−4
10−2
Refinement level number
||u−
uh||
L2(Ω
)
0
1
2
Exact
O(h4.5
)
P4− P2
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 27 / 45
![Page 43: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/43.jpg)
Isogeometric mortar methodsA key issue: the evaluation of the mortar integrals
Numerical results - Mixed integration approachL2 primal error as a function of the number of additional quadrature points
0 1 2 3 4 5 6 7
10−9
10−7
10−5
10−3
10−1
Refinement level number
||u−
uh||
L2(Ω
)
0
1
2
Exact
O(h2.5
)
P4− P0
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 27 / 45
![Page 44: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/44.jpg)
Where we are
1 IGA basics
2 Isogeometric mortar methods
3 Applications in contact mechanics
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 28 / 45
![Page 45: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/45.jpg)
Applications in contact mechanicsContact problem definition - Strong formulation
Assumption: frictionless contact→ the contact variables are thus the gap gN and the contactpressure σN defined as:
gN = (xS − xM) · nM = [x ], σN = −(σS · nS) · nM .
2 types
Rigid-Deformable contact
gN = uS · nM + (XS − XM) · nM
Deformable-Deformable contact
gN = (uS−uM)·nM +(XS−XM)·nM
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 29 / 45
![Page 46: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/46.jpg)
Applications in contact mechanicsContact problem definition - Strong formulation
Assumption: frictionless contact→ the contact variables are thus the gap gN and the contactpressure σN defined as:
gN = (xS − xM) · nM = [x ], σN = −(σS · nS) · nM .
2 types
Rigid-Deformable contact
gN = uS · nM + g
Deformable-Deformable contact
gN = (uS−uM)·nM +g
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 29 / 45
![Page 47: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/47.jpg)
Applications in contact mechanicsContact problem definition - Strong formulation
Assumption: frictionless contact→ the contact variables are thus the gap gN and the contactpressure σN defined as:
gN = (xS − xM) · nM = [x ], σN = −(σS · nS) · nM .
2 types
Rigid-Deformable contact Deformable-Deformable contact
On Ω =⋃
k Ωk
with either k = S, or k = S , M,
the mechanical equilibrium with contact conditions is written
−div(σk) = fk in Ωk ,
uk = uD,k on ΓD,k ,σk · nk = lk on ΓN,k ,
gN ≥ 0, σN ≤ 0, gN σN = 0 on ΓC ,S .
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 29 / 45
![Page 48: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/48.jpg)
Applications in contact mechanicsContact problem definition - Weak formulations
Different formulations to enforce the contact constraints: penalty,Lagrange multiplier, augmented lagrangian, Nitsche’s.
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 30 / 45
![Page 49: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/49.jpg)
Applications in contact mechanicsContact problem definition - Weak formulations
Different formulations to enforce the contact constraints: penalty,Lagrange multiplier, augmented lagrangian, Nitsche’s.
In the following, we focus on a Lagrange multiplier formulation.
To do so, we introduce a multiplier space M defined by
M = φ ∈ H−1/2(ΓC ,S),
as its subspace
M− = φ ∈ M,
∫ΓC ,S
φ [u] ds ≤ 0, ∀ [u] ∈ H1/2(ΓC ,S), [u] ≥ 0.
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 30 / 45
![Page 50: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/50.jpg)
Applications in contact mechanicsContact problem definition - Weak formulations
Different formulations to enforce the contact constraints: penalty,Lagrange multiplier, augmented lagrangian, Nitsche’s.
In the following, we focus on a Lagrange multiplier formulation.
We also introduce the following bilinear and linear forms:
b : V ×M → R, b(u, φ) =
∫ΓC ,S
φ [u] ds,
g : M → R, g(φ) =
∫ΓC ,S
φ g ds.
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 30 / 45
![Page 51: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/51.jpg)
Applications in contact mechanicsContact problem definition - Weak formulations
Different formulations to enforce the contact constraints: penalty,Lagrange multiplier, augmented lagrangian, Nitsche’s.
In the following, we focus on a Lagrange multiplier formulation.
Contact problem - Lagrange multiplier formulation
Find (u, λ) ∈ VD ×M− such thata(u, v) + b(v , λ) = f (v), ∀v ∈ V0,b(u, λ− φ) ≤ −g(λ− φ), ∀φ ∈ M−.
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 30 / 45
![Page 52: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/52.jpg)
Applications in contact mechanicsContact problem definition - Semi-discrete formulations
On each subdomain Ωk with either k = S (R-D contact) or k = S , M(D-D contact), based on its relative NURBS geometrical parametrization,we introduce the displacement approximation space
Vk,h = vk = vk F−1k , vk ∈ (Npk (Ξk))du.
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 31 / 45
![Page 53: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/53.jpg)
Applications in contact mechanicsContact problem definition - Semi-discrete formulations
On each subdomain Ωk with either k = S (R-D contact) or k = S , M(D-D contact), based on its relative NURBS geometrical parametrization,we introduce the displacement approximation space
Vk,h = vk = vk F−1k , vk ∈ (Npk (Ξk))du.
We note that in the D-D contact case, the discrete product space
Vh =∏
k=S,M
Vk,h ⊂ V forms a (H1(ΩS ∪ ΩM))du non-conforming
space discontinuous over the potential region of contact ΓC ,S .
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 31 / 45
![Page 54: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/54.jpg)
Applications in contact mechanicsContact problem definition - Semi-discrete formulations
On each subdomain Ωk with either k = S (R-D contact) or k = S , M(D-D contact), based on its relative NURBS geometrical parametrization,we introduce the displacement approximation space
Vk,h = vk = vk F−1k , vk ∈ (Npk (Ξk))du.
We note that in the D-D contact case, the discrete product space
Vh =∏
k=S,M
Vk,h ⊂ V forms a (H1(ΩS ∪ ΩM))du non-conforming
space discontinuous over the potential region of contact ΓC ,S .
Need to complete the definition of the discrete formulation to defineremaining discrete datas.
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 31 / 45
![Page 55: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/55.jpg)
Applications in contact mechanicsContact problem definition - To discrete formulations
Discrete multiplier space
For VS ,h a push-forward of a NURBS space of degree pS and :
Mh a push-forward of a spline space of degree pS =⇒ cross points
Mh a push-forward of a spline space of degree pS − 2 =⇒ stability OK
And more generally, for a push-forward of a spline space of degreepS − 2k (k ∈ N and k > 1).
Discrete gap→ Use of a lumped L2-projection Π into Mh defined as
Π : R→ Mh, (ΠgN)j =
∫ΓC ,S
gN Bφj ds∫ΓC ,S
Bφj ds, ∀ j = 1, . . . , nMh
.
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 32 / 45
![Page 56: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/56.jpg)
Where we are
1 IGA basics
2 Isogeometric mortar methodsThe discrete mortar problemLagrange multiplier spacesA key issue: the evaluation of the mortar integrals
3 Applications in contact mechanicsContact problem definitionExample of treatment of deformable-deformable contact in aLagrange multiplier formulation
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 33 / 45
![Page 57: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/57.jpg)
Applications in contact mechanicsExample of treatment of deformable-deformable contact in a Lagrange multiplierformulation
Numerical resolution strategy
The Lagrange multiplier formulation of the contact problem is solved withan active set strategy written as:Find (uh, λh) ∈ VD,h ×M−h such that
a(uh, vh) +
∫ACT
λh [vh] ds = f (vh), ∀vh in V0,h,
∫ACT
φh [uh] ds = −∫ACT
φh g ds, ∀φh in M−h .
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 34 / 45
![Page 58: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/58.jpg)
Applications in contact mechanicsExample of treatment of deformable-deformable contact in a Lagrange multiplierformulation
Numerical resolution strategy
The Lagrange multiplier formulation of the contact problem is solved withan active set strategy written as:Find (uh, λh) ∈ VD,h ×M−h such that
a(uh, vh) +
∫ACT
λh [vh] ds = f (vh), ∀vh in V0,h,
∫ACT
φh [uh] ds = −∫ACT
φh g ds, ∀φh in M−h .
Need to focus on
the discrete active set region definition,
suitable integration methods to approximate the mixed termcontributions.
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 34 / 45
![Page 59: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/59.jpg)
Applications in contact mechanicsExample of treatment of deformable-deformable contact in a Lagrange multiplierformulation
Giving a discrete definition of the dual cone M−h , e.g.,
M−h,E = φh ∈ Mh, φh ≤ 0,
M−h,W = φh ∈ Mh,
∫ΓC ,S
φh Bj ds ≤ 0, ∀j = 1, ..., nMh,
M−h,P = φh =∑k
αk Bk , αk ≤ 0, ∀k = 1, ..., nMh,
→ consists in giving a discrete definition of the active vs inactivecontact region.
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 35 / 45
![Page 60: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/60.jpg)
Applications in contact mechanicsExample of treatment of deformable-deformable contact in a Lagrange multiplierformulation
Giving a discrete definition of the dual cone M−h , e.g.,
M−h,E = φh ∈ Mh, φh ≤ 0,
M−h,W = φh ∈ Mh,
∫ΓC ,S
φh Bj ds ≤ 0, ∀j = 1, ..., nMh,
M−h,P = φh =
∑k
αk Bk , αk ≤ 0, ∀k = 1, ..., nMh,
→ consists in giving a discrete definition of the active vs inactivecontact region.
According to the R-D contact case study, we choose to define it as thesupport of active multiplier functions. This set of functions isdenoted CPACT
λ while the set of inactive ones CPINAλ .
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 35 / 45
![Page 61: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/61.jpg)
Applications in contact mechanicsExample of treatment of deformable-deformable contact in a Lagrange multiplierformulation
Active set strategy
(i) Initialise CPACTλ and CPINA
λ
(ii) Compute [K B(·,CPACT
λ )
B∗(CPACT
λ , ·) 0(CPACTλ ,CPACT
λ )
] [U
Λ(CPACTλ )
]=
[F
G(CPACTλ )
]
(iii) Check convergence, i.e.,: CPACTλ and CPINA
λ stable
(iv) Update CPACTλ and CPINA
λ and go to (ii) until convergence is reached
The constraints are checked on the multiplier control values λj and the
discrete gap control values (ΠgN)j . The 9 possible cases are:
λj < 0, λj > 0, λj = 0,
(ΠgN)j = 0 Actif (a) (ΠgN)j = 0 Inactif (b) (ΠgN)j = 0 Inactif (c)
(ΠgN)j > 0 Actif (d) (ΠgN)j > 0 Inactif (e) (ΠgN)j > 0 Inactif (f)
(ΠgN)j < 0 Actif (g) (ΠgN)j < 0 Actif (h) (ΠgN)j < 0 Actif (i)
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 36 / 45
![Page 62: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/62.jpg)
Applications in contact mechanicsExample of treatment of deformable-deformable contact in a Lagrange multiplierformulation
Active set strategy
(i) Initialise CPACTλ and CPINA
λ
(ii) Compute [K B(·,CPACT
λ )
B∗(CPACT
λ , ·) 0(CPACTλ ,CPACT
λ )
] [U
Λ(CPACTλ )
]=
[F
G(CPACTλ )
]
(iii) Check convergence, i.e.,: CPACTλ and CPINA
λ stable
(iv) Update CPACTλ and CPINA
λ and go to (ii) until convergence is reached
B =
[BS
BM
]B∗ =
[B∗S
B∗M
]BSij =
∫ACT
Bλj (xS ) nM (xM ) · BS
i (xS ) ds,
B∗Sij =
∫ACT
Bλi (xS ) nM (xM ) · BS
j (xS ) ds,
BMij = −
∫ACT
Bλj (xS ) nM (xM ) · BM
i (xM ) ds,
B∗Mij = −
∫ACT
Bλi (xS ) nM (xM ) · BM
j (xM ) ds.
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 36 / 45
![Page 63: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/63.jpg)
Applications in contact mechanicsExample of treatment of deformable-deformable contact in a Lagrange multiplierformulation
Active set strategy
(i) Initialise CPACTλ and CPINA
λ
(ii) Compute [K B(·,CPACT
λ )
B∗(CPACT
λ , ·) 0(CPACTλ ,CPACT
λ )
] [U
Λ(CPACTλ )
]=
[F
G(CPACTλ )
]
(iii) Check convergence, i.e.,: CPACTλ and CPINA
λ stable
(iv) Update CPACTλ and CPINA
λ and go to (ii) until convergence is reached
BSij =
∑S
ACTBλj (xS ) nM (xM ) · BS
i (xS ),
B∗Sij =
∑S
ACTBλi (xS ) nM (xM ) · BS
j (xS ),
BMij = −
∑M
ACTBλj (xS ) nM (xM ) · BM
i (xM ),
B∗Mij = −
∑S
ACTBλi (xS ) nM (xM ) · BM
j (xM ).
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 36 / 45
![Page 64: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/64.jpg)
Applications in contact mechanicsExample of treatment of deformable-deformable contact in a Lagrange multiplierformulation
Numerical results - Test 1 - Transmission of a constant pressure
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 37 / 45
![Page 65: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/65.jpg)
Applications in contact mechanicsExample of treatment of deformable-deformable contact in a Lagrange multiplierformulation
Numerical results - Test 1 - Transmission of a constant pressure
P2− P2,non-conforming meshes,4× 2 elements for eachsubdomain
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 37 / 45
![Page 66: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/66.jpg)
Applications in contact mechanicsExample of treatment of deformable-deformable contact in a Lagrange multiplierformulation
Numerical results - Test 1 - Transmission of a constant pressure
P2− P2,non-conforming meshes,64× 32 elements for eachsubdomain
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 37 / 45
![Page 67: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/67.jpg)
Applications in contact mechanicsExample of treatment of deformable-deformable contact in a Lagrange multiplierformulation
Numerical results - Test 2
−1 −0.8 −0.6 −0.4 −0.2 0 0.2 0.4 0.6 0.8 1−0.08
−0.07
−0.06
−0.05
−0.04
−0.03
−0.02
−0.01
0
−1 −0.8 −0.6 −0.4 −0.2 0 0.2 0.4 0.6 0.8 1−0.015
−0.01
−0.005
0
Full contact vs Partial contact
conforming meshes
non-conforming meshes
at refinement level 2
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 38 / 45
![Page 68: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/68.jpg)
Applications in contact mechanicsExample of treatment of deformable-deformable contact in a Lagrange multiplierformulation
Numerical results - Test 2 - Full contactL2 multiplier errors
102
103
104
10−6
10−4
10−2
||λ−
λh||L
2(Γ
C,S)
primal dof number
Conf. meshes
Mix. int. app.
Sla. int. app.
O(h0.5
), O(h1),O(h
1.5)
P2− P2
Ref: P4− P4, 511× 128 elements for each subdomainEricka Brivadis Isogeometric mortar & contact January 19th, 2017 39 / 45
![Page 69: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/69.jpg)
Applications in contact mechanicsExample of treatment of deformable-deformable contact in a Lagrange multiplierformulation
Numerical results - Test 2 - Full contact
P2− P2Ref. level nb. 3
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 40 / 45
![Page 70: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/70.jpg)
Applications in contact mechanicsExample of treatment of deformable-deformable contact in a Lagrange multiplierformulation
Numerical results - Test 2 - Partial contactL2 multiplier errors
102
104
10−6
10−4
10−2
||λ−
λh||L
2(Γ
C,S)
primal dof number
Conf. meshes
Mix. Int. App.
Slav. int. App.
O(h0.5
), O(h1),O(h
1.5)
P2− P2
Ref: P4− P4, 511× 128 elements for each subdomainEricka Brivadis Isogeometric mortar & contact January 19th, 2017 41 / 45
![Page 71: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/71.jpg)
Where we are
1 IGA basics
2 Isogeometric mortar methodsThe discrete mortar problemLagrange multiplier spacesA key issue: the evaluation of the mortar integrals
3 Applications in contact mechanicsContact problem definitionExample of treatment of deformable-deformable contact in aLagrange multiplier formulation
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 42 / 45
![Page 72: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/72.jpg)
Conclusion & perspectives
Theoretical and numerical study of isogeometric mortar methods.
Study of alternative integration methods to alleviate theconstruction of the merged mesh.
From these former results, proposition of contact methods forrigid-deformable and deformable-deformable contact.
Additionally, work on a segmentation process for IGA mortarapplications. It has been thought to be suitable for mortar-likecontact methods.
Perspectives: generalisation of the proposed segmentation process,extension of the methods to the large deformation cases,consideration of contact problems with friction.
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 43 / 45
![Page 73: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/73.jpg)
Conclusion & perspectives
Isogeometric mortar methods. E. Brivadis, A. Buffa, B. Wohlmuthand L. Wunderlich. Comput. Methods Appl. Mech. Eng. 284 (2015),pp. 292-319.
The Influence of Quadrature Errors on Isogeometric Mortar Methods.E. Brivadis, A. Buffa, B. Wohlmuth and L. Wunderlich. IsogeometricAnalysis and Applications 2014. Ed. by B. Jttler and B. Simeon. Vol.107. 2015, pp. 33-50.
Isogeometric contact mechanics applications. E. Brivadis, A. Buffa.In preparation.
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 44 / 45
![Page 74: Isogeometric mortar methods with applications in contact ... · Isogeometric mortar methods with applications in contact mechanics PhD dissertation defense Brivadis Ericka Supervisor:](https://reader030.fdocuments.us/reader030/viewer/2022041205/5d57833c88c99300308bceb8/html5/thumbnails/74.jpg)
Thanks for your attention
Ericka Brivadis Isogeometric mortar & contact January 19th, 2017 45 / 45