ESAFORM 2022
M. Conde1, J. Henriques1,
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1 TEMA, Department of Mechanical Engineering, University of Aveiro, Portugal
2 Department of Materials Engineering, Ghent Technology Campus, KU Leuven, Belgium
IDENTIFICATION OF SWIFT LAW PARAMETERS USING FEMU BY A SYNTHETIC IMAGE DIC-BA...vformxsteels
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J. Henriquesa,*, M. Condea
, A. Andrade-Camposa
, J. Xavierb
*Corresponding author: joaodiogofh@ua.pt
aTEMA, Department of Mechanical Engineering, University of Aveiro, Campus Universitário de Santiago,
3810-193 Aveiro, Portugal
bUNIDEMI, Department of Mechanical and Industrial Engineering, NOVA School of Science and Technology,
NOVA University Lisbon, 2829-516 Caparica, Portugal
IDENTIFICATION OF SWIFT LAW PARAMETERS USING FEMU BY A SYNTHETIC IMAGE DIC-BA...vformxsteels
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J. Henriquesa,*, M. Condea
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, J. Xavierb
*Corresponding author: joaodiogofh@ua.pt
aTEMA, Department of Mechanical Engineering, University of Aveiro, Campus Universitário de Santiago,
3810-193 Aveiro, Portugal
bUNIDEMI, Department of Mechanical and Industrial Engineering, NOVA School of Science and Technology,
NOVA University Lisbon, 2829-516 Caparica, Portugal
Uncertainty quantification of inversely identified plastic material behavior ...vformxsteels
M Conde, S Coppieters, A Andrade-Campos
TEMA, Department of Mechanical Engineering, University of Aveiro, Portugal
Department of Materials Engineering, Ghent Technology Campus, KU Leuven, Belgium
Uncertainty quantification of inversely identified plastic material behavior ...vformxsteels
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M Conde1,*, S Coppieters2, A Andrade-Campos1
* marianaconde@ua.pt
1 TEMA, Department of Mechanical Engineering, University of Aveiro, Portugal
2 Department of Materials Engineering, Ghent Technology Campus, KU Leuven, Belgium
Process-informed material model selectionvformxsteels
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Mariana Conde, Sam Coppieters, António Andrade-Campos
Department of Mechanical Engineering, TEMA - Centre for Mechanical Technology and Automation, LASI – Intelligent Systems Associate Laboratory, University of Aveiro, Portugal
Department of Materials Engineering, KU Leuven, Belgium
Process-informed material model selectionvformxsteels
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1Department of Mechanical Engineering, TEMA - Centre for Mechanical Technology and Automation, LASI – Intelligent Systems Associate Laboratory, University of Aveiro, Portugal
2Department of Materials Engineering, KU Leuven, Belgium
*marianaconde@ua.pt
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IDENTIFICATION OF SWIFT LAW PARAMETERS USING FEMU BY A SYNTHETIC IMAGE DIC-BA...vformxsteels
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Braga, Portugal, 27-29 April 2022
J. Henriquesa,*, M. Condea
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*Corresponding author: joaodiogofh@ua.pt
aTEMA, Department of Mechanical Engineering, University of Aveiro, Campus Universitário de Santiago,
3810-193 Aveiro, Portugal
bUNIDEMI, Department of Mechanical and Industrial Engineering, NOVA School of Science and Technology,
NOVA University Lisbon, 2829-516 Caparica, Portugal
Uncertainty quantification of inversely identified plastic material behavior ...vformxsteels
M Conde, S Coppieters, A Andrade-Campos
TEMA, Department of Mechanical Engineering, University of Aveiro, Portugal
Department of Materials Engineering, Ghent Technology Campus, KU Leuven, Belgium
Uncertainty quantification of inversely identified plastic material behavior ...vformxsteels
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M Conde1,*, S Coppieters2, A Andrade-Campos1
* marianaconde@ua.pt
1 TEMA, Department of Mechanical Engineering, University of Aveiro, Portugal
2 Department of Materials Engineering, Ghent Technology Campus, KU Leuven, Belgium
Process-informed material model selectionvformxsteels
ESAFORM 2023
Mariana Conde, Sam Coppieters, António Andrade-Campos
Department of Mechanical Engineering, TEMA - Centre for Mechanical Technology and Automation, LASI – Intelligent Systems Associate Laboratory, University of Aveiro, Portugal
Department of Materials Engineering, KU Leuven, Belgium
Process-informed material model selectionvformxsteels
ESAFORM 2023
Mariana Conde1,*, Sam Coppieters2, António Andrade-Campos1
1Department of Mechanical Engineering, TEMA - Centre for Mechanical Technology and Automation, LASI – Intelligent Systems Associate Laboratory, University of Aveiro, Portugal
2Department of Materials Engineering, KU Leuven, Belgium
*marianaconde@ua.pt
Design and validation of a heterogeneous interior notched specimen for materi...Vform Xsteels
Currently, virtual manufacturing and simulation predictions are crucial in the design and development of engineering parts. However, its reliability largely depends on the adopted constitutive model and accuracy of the governing material parameters. A complex and robust phenomenological constitutive model requires the calibration of many parameters. This is a very time-consuming task, particularly when using classical procedures, which involves many homogeneous mechanical experiments and high costs.
On the topology design of an innovative heterogeneous mechanical test for mat...vformxsteels
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Centre for Mechanical Technology and Automation (TEMA), Department of Mechanical Engineering, University of Aveiro,
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This work aims to identify orthotropic linear elastic constitutive parameters of Pinus pinaster Ait. wood through the Finite Element Model Updating (FEMU) methodology. The approach is validated using both FE and synthetic image data. In the latter, digital image correlation is carried out on synthetic images deformed according to a 2D FE model. A systematic comparison is carried out. The identifiability for the four orthotropic material parameters on the radial-tangential (RT) plane is discussed regarding robustness and relative errors.
Identification of orthotropic elastic properties of wood by a synthetic image...Vform Xsteels
This work aims to identify orthotropic linear elastic constitutive parameters of Pinus pinaster Ait. wood through the Finite Element Model Updating (FEMU) methodology. The approach is validated using both FE and synthetic image data. In the latter, digital image correlation is carried out on synthetic images deformed according to a 2D FE model. A systematic comparison is carried out. The identifiability for the four orthotropic material parameters on the radial-tangential (RT) plane is discussed regarding robustness and relative errors.
On the power of virtual experimentation in MT2.0:a VFORM-xSteels outlookvformxsteels
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On the power of virtual experimentation in MT2.0 : a VFORM outlook
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Virtual materials testing: come funziona e i benefici sulla produzioneCompositi
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Connettendo il mondo reale con il virtuale, il processo di sviluppo di virtual materials testing permette di accelerare i tempi e ridurre i costi della filiera.
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Univ. Bretagne Sud, UMR CNRS 6027, IRDL
F-56100 Lorient, France
1
On the topology design of a mechanical heterogeneous specimen using geometric...vformxsteels
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M. Gonçalves, S. Thuillier, A. Andrade-Campos
Centre for Mechanical Technology and Automation (TEMA), Department of Mechanical Engineering,
University of Aveiro, Portugal
Univ. Bretagne Sud, UMR CNRS 6027, IRDL, F-56100 Lorient, France
41st International Deep Drawing Research Group Conference, 6 - 10 June 2022, Lorient, France
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A DEEP LEARNING APPROACH FOR DEFECT DETECTION AND SEGMENTATION IN X-RAY COMPU...gerogepatton
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traditional manufacturing techniques to accurately manufacture highly complex parts. X-ray Computed
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and segmentation of defects in XCT images of AM have many challenges due to contrast, size, and
appearance of defects. This study developed deep learning techniques for detecting and segmenting defects
in XCT images of AM. Due to a large number of required defect annotations, this paper applied image
processing techniques to automate the defect labeling process. A single-stage object detection algorithm
(YOLOv5) was applied to the problem of defect detection in image data. Three different variants of
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Identification of orthotropic elastic properties of wood by digital image cor...Vform Xsteels
Wood and wood-based products have been gathering relevance across the globe due to policies of sustainability and green economy. Wood can be modelled as a hierarchical material. Despite the mechanical characterization of several major species at the macro and structural scales, information addressing material properties at the mesoscale of the annual growth rings is still very scarce in the literature.
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ESAFORM 2022
25th International Conference on Material Forming
R. Lourenço1,a, A. Andrade-Campos1,b, P. Georgieva2,c
1Dept. of Mechanical Engineering
Centre for Mechanical Technology and Automation, University of Aveiro, Portugal
2Dept. of Electronics Telecommunications and Informatics
Institute of Electronics and Informatics Engineering, University of Aveiro, Portugal
a
rubenl@ua.pt, bgilac@ua.pt, cpetia@ua.pt
27-29 April, Braga, Portugal
The Virtual Fields Method to indirectly train ANNs for implicit constitutive ...vformxsteels
ESAFORM 2022 - 25th International Conference on Material Forming
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Dept. of Electronics Telecommunications and Informatics
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27-29 April, Braga, Portugal
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Braga, Portugal
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Univ. Bretagne Sud, UMR CNRS 6027, IRDL, F-56100 Lorient, France
Identification of anisotropic yield functions using an information-rich tensi...vformxsteels
Yi Zhang1, António Andrade-Campos2, Sam Coppieters1
1 Department of Materials Engineering, KU Leuven
2 Department of Mechanical Engineering, University of Aveiro, 3810-193
Aveiro, Portugal
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Parameter Identification of Swift law using a FEMU-based approach and an innovative heterogeneous mechanical test
1. Parameter Identification of Swift law
using a FEMU-based approach and an
innovative heterogeneous mechanical
test
M. Conde1, J. Henriques1,
S. Coppieters2, A. Andrade-Campos1
1 TEMA, Department of Mechanical
Engineering, University of Aveiro, Portugal
2 Department of Materials Engineering, Ghent
Technology Campus, KU Leuven, Belgium
https://unsplash.com/photos/r4gqCg1iies
2. M. Conde, J. Henriques, S. Coppieters, A. Andrade-Campos - Parameter identification of Swift law using a FEMU-based approach and an innovative heterogenous mechanical test
1 Introduction, Framework and Literature Review
ESAFORM 2022 – 25th International Conference on Material Forming – Braga, Portugal
1
Realistic
simulations
Adequate
constitutive model
Accurate material
parameters
Material model calibration strategy
3. M. Conde, J. Henriques, S. Coppieters, A. Andrade-Campos - Parameter identification of Swift law using a FEMU-based approach and an innovative heterogenous mechanical test
1 Introduction, Framework and Literature Review
ESAFORM 2022 – 25th International Conference on Material Forming – Braga, Portugal
1
Material model
calibration
strategy
Classical
approach
Inverse
identification
approach
Non-
homogeneous
mechanical test
FFM
Several
mechanical tests
Simple strain and
stress fields
4. M. Conde, J. Henriques, S. Coppieters, A. Andrade-Campos - Parameter identification of Swift law using a FEMU-based approach and an innovative heterogenous mechanical test
1 Introduction, Framework and Literature Review
ESAFORM 2022 – 25th International Conference on Material Forming – Braga, Portugal
1
FEMU
Experimental data
(DIC)
Numerical data
(FEA)
Errors due to different measurement
techniques [1]
[1] P. Lava, E. M. C. Jones, L. Wittevrongel, and F.
Pierron, “Validation of finite-elemento models using
full-field experimental data : Levelling finite-element
analysis data through a digital image correlation
5. M. Conde, J. Henriques, S. Coppieters, A. Andrade-Campos - Parameter identification of Swift law using a FEMU-based approach and an innovative heterogenous mechanical test
1 Introduction, Framework and Literature Review
ESAFORM 2022 – 25th International Conference on Material Forming – Braga, Portugal
1
Proposed solution
Experimental data
(DIC)
Numerical data
(FEA-DIC) [2]
Same filtering, spatial resolution and strain
calculation method [1]
Optimised
heterogeneous
test
Dogbone test
[1] P. Lava, E. M. C. Jones, L. Wittevrongel, and F. Pierron, “Validation of finite-elemento models using
full-field experimental data : Levelling finite-element analysis data through a digital image correlation
engine,” Strain, vol. 56, no. e12350, 2020.
[2] J. Henriques, João;Conde, Mariana; Andrade-Campos, António; Xavier, “Identification of Swift law parameters using FEMU
by a synthetic image approach based on digital image correlation,” in Esaform 2022 - 25th International Conference on
Material Forming, 2022.
6. 2 Methodology and Implementation
M. Conde, J. Henriques, S. Coppieters, A. Andrade-Campos - Parameter identification of Swift law using a FEMU-based approach and an innovative heterogenous mechanical test
ESAFORM 2022 – 25th International Conference on Material Forming – Braga, Portugal
2
Run virtual test in Abaqus
up to rupture
Nodal coordinates and
displacement of each step
Create synthetically
deformed images using
MatchID
Calculate FEMU cost
function value
Strain fields of each step
Convergenc
e
Best set of parameters
Create virtual test model
Run virtual test in Abaqus
up to rupture
Nodal coordinates and
displacement of each step
Create synthetically
deformed images using
MatchID
Strain fields of each step
Optimisation algorithm
New set of parameters
Reference set of
parameters
Initial set of parameters
7. 2.1 Mechanical Tests
M. Conde, J. Henriques, S. Coppieters, A. Andrade-Campos - Parameter identification of Swift law using a FEMU-based approach and an innovative heterogenous mechanical test
ESAFORM 2022 – 25th International Conference on Material Forming – Braga, Portugal
3
P1 P2 P3 P4 P5 P6
xx
[mm]
0.000 3.708 23.092 23.505 15.889 3.086
yy
[mm]
10.000 11.421 31.784 17.078 5.163 0.000
Optimised heterogeneous test [3] Dogbone test
[3] M. Conde, A. Andrade-Campos, M. G. Oliveira, and
J. M. P. Martins, “Design of heterogeneous interior
notched specimens for material mechanical
characterization,” in Esaform 2021 - 24th
8. 2.1 Mechanical Tests
M. Conde, J. Henriques, S. Coppieters, A. Andrade-Campos - Parameter identification of Swift law using a FEMU-based approach and an innovative heterogenous mechanical test
ESAFORM 2022 – 25th International Conference on Material Forming – Braga, Portugal
3
Optimised heterogeneous test [3] Dogbone test
[3] M. Conde, A. Andrade-Campos, M. G. Oliveira, and
J. M. P. Martins, “Design of heterogeneous interior
notched specimens for material mechanical
characterization,” in Esaform 2021 - 24th
P1 P2 P3 P4 P5 P6
xx
[mm]
0.000 3.708 23.092 23.505 15.889 3.086
yy
[mm]
10.000 11.421 31.784 17.078 5.163 0.000
9. 2.2 Constitutive Model and Material Definition
M. Conde, J. Henriques, S. Coppieters, A. Andrade-Campos - Parameter identification of Swift law using a FEMU-based approach and an innovative heterogenous mechanical test
ESAFORM 2022 – 25th International Conference on Material Forming – Braga, Portugal
4
Hooke’s Law E [GPa] ν
210 0.3
Swift Law K [MP] 𝜀0 n
979.460 0.00535 0.194
Yld 2000-2d α1 α2 α3 α4 α5 α6 α7 α8 n
1.011 0.964 1.191 0.995 1.010 1.018 0.977 0.935 6
DP600 steel (0.8 mm thickness)
• Elastic behaviour: Hooke’s Law
• Hardening behaviour: Swift Law
• Anisotropy behaviour: Yld2000-2d function
• Damage initiation: Forming limit diagram criterion (FLDC)
[4] F. Ozturk, S. Toros, and S. Kilic, “Effects of anisotropic yield functions on prediction of
forming limit diagrams of DP600 advanced high strength steel,” Procedia Eng., vol. 81, no.
October, pp. 760–765, 2014 .
[4
]
10. 2.3 Analysis of the Test
M. Conde, J. Henriques, S. Coppieters, A. Andrade-Campos - Parameter identification of Swift law using a FEMU-based approach and an innovative heterogenous mechanical test
ESAFORM 2022 – 25th International Conference on Material Forming – Braga, Portugal
5
• Plane stress state conditions
• Dogbone: 858 elements;
Heterogeneous: 2975 elements
• CPS4R element type
• Material behaviour: UMMDp [5]
• 10 evenly spaced time
increments
FEA (Abaqus) DIC (MatchID)
• Average speckle size: 3 px
• Subset size: 21 px
• Step size: 5 px
• Strain window size: 11 datapoints
• Subset shape function: quadratic
• Matching criterion: ZNSSD
• Interpolation: Bi-cubic spline
• Displacement noise-floor: 0.009 px
Initial mesh
Displacement
fields
[5] H. Takizawa, T. Kuwabara, K. Oide, and J.
Yoshida, “Development of the subroutine library
‘UMMDp’ for anisotropic yield functions commonly
applicable to commercial FEM codes,” J. Phys.
11. 2.4 FEMU-Based Approach
M. Conde, J. Henriques, S. Coppieters, A. Andrade-Campos - Parameter identification of Swift law using a FEMU-based approach and an innovative heterogenous mechanical test
ESAFORM 2022 – 25th International Conference on Material Forming – Braga, Portugal
7
Φ(χ) =
1
𝑛t
𝑖=1
𝑛t 1
3𝑛p 𝑗=1
𝑛p 𝜀𝑥𝑥
num(χ)−𝜀𝑥𝑥
exp
𝜀max
exp
2
+
𝜀𝑦𝑦
num(χ)−𝜀𝑦𝑦
exp
𝜀max
exp
2
+
𝜀𝑥𝑦
num(χ)−𝜀𝑥𝑦
exp
𝜀max
exp
2
𝑗
+
Fnum
(χ)−Fexp
Fmax
exp
2
𝑖
Minimization of:
In order to find:
χ =[𝐾, 𝜀0, ν]
Optimisation algorithm: Levenberg-Marquardt [6]
[6] S. Community, “Optimization - scipy.optimize,” SciPy.org, 2021. [Online]. Available:
https://docs.scipy.org/doc/scipy/reference/tutorial/optimize.html. [Accessed: 01-Oct-2021] .
12. 3 Analysis and Results
M. Conde, J. Henriques, S. Coppieters, A. Andrade-Campos - Parameter identification of Swift law using a FEMU-based approach and an innovative heterogenous mechanical test
ESAFORM 2022 – 25th International Conference on Material Forming – Braga, Portugal
8
K 𝜀0 n Φ(χ)
Dogbone test
Ref. set 979.46 0.00535 0.194 1.055x10-9
Init. set 1 1000.0 0.00480 0.100 7.009x10-2
Final set 942.96 9.99x10-7 0.169 2.689x10-4
Error [%] 3.7265 100 12.9 -
Init. set 2 708.51 0.000573 0.218 8.830x10-2
Final set 979.14 0.00534 0.194 1.680x10-8
Error [%] 0.032671 0.187 0.000 -
Heterogeneous test
Ref. set 979.46 0.00535 0.194 2.665x10-8
Init. set 1 1000.0 0.00480 0.100 8.853x10-2
Final set 902.99 0.00457 0.103 5.153x10-2
Error [%] 7.8069 14.6 46.9 -
Init. set 2 708.51 0.000573 0.218 8.612x10-2
Final set 979.00 0.00533 0.194 3.323x10-8
Error [%] 0.046964 0.374 0.000 -
13. 3 Analysis and Results
M. Conde, J. Henriques, S. Coppieters, A. Andrade-Campos - Parameter identification of Swift law using a FEMU-based approach and an innovative heterogenous mechanical test
ESAFORM 2022 – 25th International Conference on Material Forming – Braga, Portugal
8
14. 3 Analysis and Results
M. Conde, J. Henriques, S. Coppieters, A. Andrade-Campos - Parameter identification of Swift law using a FEMU-based approach and an innovative heterogenous mechanical test
ESAFORM 2022 – 25th International Conference on Material Forming – Braga, Portugal
9
15. 4 Main Conclusions
M. Conde, J. Henriques, S. Coppieters, A. Andrade-Campos - Parameter identification of Swift law using a FEMU-based approach and an innovative heterogenous mechanical test
ESAFORM 2022 – 25th International Conference on Material Forming – Braga, Portugal
10
• Identification of the Swift’s hardening law parameters using a DIC-levelled
FEMU methodology
• Comparison of the identified parameters using an optimised strain
heterogeneous test and a dogbone test
• The optimisation process is very dependent of the initial set of parameters
• Parameters’ relative errors below 0.4% for both tests
• The optimised heterogeneous test lead to a more robust calibration
compared to the dogbone test
• The different strain states that the optimised specimen presents were not
16. Parameter Identification of Swift law
using a FEMU-based approach and an
innovative heterogeneous mechanical
test M. Conde, J. Henriques,
S. Coppieters, A. Andrade-Campos
marianaconde@ua.pt
Thank you for your
attention!
Acknowledgments
This project has received funding from the Research Fund for Coal and Steel under grant
agreement No 888153.
The authors also gratefully acknowledge the financial support of the Portuguese Foundation for
Science and Technology (FCT) under the projects CENTRO-01-0145-FEDER-029713, POCI-
01- 0145-FEDER-031243 and POCI-01-0145-FEDER-030592 by UE/FEDER through the
programs CENTRO 2020 and COMPETE 2020, and UIDB/00481/2020 and UIDP/00481/2020-
FCT under CENTRO-01-0145-FEDER-022083. Mariana Conde is grateful to the Portuguese
Foundation for Science and Technology (FCT) for the PhD grant 2021.06115.BD
https://unsplash.com/photos/r4gqCg1iies
Editor's Notes
Name, university, country
title
Realistic simulations are necessary for engineering
Adequate constitutive model and accurate parameters
Material model calibration strategy
To calibrate parameters: classical approaches -> time, cost, not realistic
Inverse identification, using FFM and Heterogeneous mechanical tests -> several strain and stress states simultaneously and the data can be extracted beyond necking
Reduces the number of experimental tests required, in comparison to classical approaches and are more realistic
Classical FEMU-> compares experiments (measured using DIC) and numerical (FEA data) -> not consistent -> errors (REF)
Proposed work:
Adapted FEMU approach to measure strain fields of the numerical test with DIC techniques -> same filtering, spatial resolution, strain calculation method
Heterogeneous test and dogbone test
Previous works: a test with larger strain heterogeneity presented larger sensitivity to the swift hardening law parameters, than a test with less strain heterogeneity (REF)
Het test: shape optimisation driven by a strain heterogeneity indicator
Loading conditions
Het test: shape optimisation driven by a strain heterogeneity indicator
Loading conditions
Swift law calibration
Ref set: different CF value (probably due to complexity of strain fields in the optimised specimen)
Very dependent of init set
Very accurate calibration
Het test more robust
Parameters convergence after 50 evaluations (the red line is the ground truth)
Very accurate
Dogbone cost function value lower than heterogeneous test strain term
Het. Test: larger strain error might be due to complex strain gradients difficult to measure
No differences in the force term
Strain-stress curve very similar to the reference solution (very accurate for both tests)