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[nazev] => Study of Fracture Behaviour of Doped Polycrystalline Fe Alloy
[nazev_orig] => Study of Fracture Behaviour of Doped Polycrystalline Fe Alloy
[duvernost_udaju_id] => S
[popis] => Additions of some solutes or impurities to a host metal can change substantially its properties, e.g. yield stress, plasticity, toughness and cohesion. Some elements such as phosphorus, antimony and tin, are mainly
responsible for embrittlement of grain boundaries in bcc iron. In this work, fracture behaviour of binary
Fe–Sb and Fe–Sn polycrystalline alloys is studied both experimentally and theoretically. It is shown that brittle intergranular fracture prevails there.
[popis_orig] => Additions of some solutes or impurities to a host metal can change substantially its properties, e.g. yield stress, plasticity, toughness and cohesion. Some elements such as phosphorus, antimony and tin, are mainly
responsible for embrittlement of grain boundaries in bcc iron. In this work, fracture behaviour of binary
Fe–Sb and Fe–Sn polycrystalline alloys is studied both experimentally and theoretically. It is shown that brittle intergranular fracture prevails there.
[klicova_slova] => Fe–Sn Alloy, Fe–Sb Alloy, Grain Boundary Segregation, Intergranular Fracture
[klicova_slova_orig] => Fe–Sn Alloy, Fe–Sb Alloy, Grain Boundary Segregation, Intergranular Fracture
[url] =>
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[vycet_osob] => HORNÍKOVÁ, J.; ŠANDERA, P.
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[identifikator] => ISBN 978-969-683-2
[identifikator_popis] => ISBN - Abstract proceeding book - ECBA
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[citace_text] => HORNÍKOVÁ, J.; ŠANDERA, P. Study of Fracture Behaviour of Doped Polycrystalline Fe Alloy. Abstract proceeding book - ECBA. Seminyak: Academic Fora, 2016. p. 13-13. ISBN: 978-969-683-2.
[citace_html] => HORNÍKOVÁ, J.; ŠANDERA, P. Study of Fracture Behaviour of Doped Polycrystalline Fe Alloy. Abstract proceeding book - ECBA. Seminyak: Academic Fora, 2016. p. 13-13. ISBN: 978-969-683-2.
[citace_rtf] =>
[citace_bibtex] => @misc{BUT133383,
author="Jana {Horníková} and Pavel {Šandera}",
title="Study of Fracture Behaviour of Doped Polycrystalline Fe Alloy",
booktitle="Abstract proceeding book - ECBA",
year="2016",
edition="1",
pages="13--13",
publisher="Academic Fora",
address="Seminyak",
isbn="978-969-683-2",
note="Abstract"
}
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[nazev_en] => Study of Fracture Behaviour of Doped Polycrystalline Fe Alloy
[popis_en] => Additions of some solutes or impurities to a host metal can change substantially its properties, e.g. yield stress, plasticity, toughness and cohesion. Some elements such as phosphorus, antimony and tin, are mainly
responsible for embrittlement of grain boundaries in bcc iron. In this work, fracture behaviour of binary
Fe–Sb and Fe–Sn polycrystalline alloys is studied both experimentally and theoretically. It is shown that brittle intergranular fracture prevails there.
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[nazev] => Correlation between transversal and orthogonal maximal diameters of abdominal aortic aneurysms and alternative rupture risk predictors
[nazev_orig] => Correlation between transversal and orthogonal maximal diameters of abdominal aortic aneurysms and alternative rupture risk predictors
[duvernost_udaju_id] => S
[popis] => Purpose:
There is no standard for measuring maximal diameter (Dmax) of abdominal aortic
aneurysm (AAA) from computer tomography (CT) images although differences between
Dmax evaluated from transversal (axialDmax) or orthogonal (orthoDmax) planes can be large
especially for angulated AAAs. Therefore we investigated their correlations with alternative
rupture risk indicators as peak wall stress (PWS) and peak wall rupture risk (PWRR) to decide
which Dmax is more relevant in AAA rupture risk assessment.
Material and Methods
The Dmax values were measured by a trained radiologist from 70 collected CT scans, and the
corresponding PWS and PWRR were evaluated using Finite Element Analysis (FEA). The
cohort was ordered according to the difference between axialDmax and orthoDmax ( Da-o)
quantifying the aneurysm angulation, and Spearman’s correlation coefficients between
PWS/PWRR – orthoDmax/axialDmax were calculated.
Results
The calculated correlations PWS/PWRR vs. orthoDmax were substantially higher for
angulated AAAs (with Da-o >= 3mm ). Under this limit, the correlations were almost the same
for both Dmax values. Analysis of AAAs divided into two groups of angulated (n=38) and
straight (n=32) cases revealed that both groups are similar in all parameters (orthoDmax,
PWS, PWRR) with the exception of axialDmax (p=0.024).
Conclusions
It was confirmed that orthoDmax is better correlated with the alternative rupture risk
predictors PWS and PWRR for angulated AAAs ( Da-o>=3mm) while there is no difference
between orthoDmax and axialDmax for straight AAAs ( Da-o<3). As angulated AAAs
represent a significant portion of cases it can be recommended to use orthoDmax as the only
Dmax parameter for AAA rupture risk assessment.
[popis_orig] => Purpose:
There is no standard for measuring maximal diameter (Dmax) of abdominal aortic
aneurysm (AAA) from computer tomography (CT) images although differences between
Dmax evaluated from transversal (axialDmax) or orthogonal (orthoDmax) planes can be large
especially for angulated AAAs. Therefore we investigated their correlations with alternative
rupture risk indicators as peak wall stress (PWS) and peak wall rupture risk (PWRR) to decide
which Dmax is more relevant in AAA rupture risk assessment.
Material and Methods
The Dmax values were measured by a trained radiologist from 70 collected CT scans, and the
corresponding PWS and PWRR were evaluated using Finite Element Analysis (FEA). The
cohort was ordered according to the difference between axialDmax and orthoDmax ( Da-o)
quantifying the aneurysm angulation, and Spearman’s correlation coefficients between
PWS/PWRR – orthoDmax/axialDmax were calculated.
Results
The calculated correlations PWS/PWRR vs. orthoDmax were substantially higher for
angulated AAAs (with Da-o >= 3mm ). Under this limit, the correlations were almost the same
for both Dmax values. Analysis of AAAs divided into two groups of angulated (n=38) and
straight (n=32) cases revealed that both groups are similar in all parameters (orthoDmax,
PWS, PWRR) with the exception of axialDmax (p=0.024).
Conclusions
It was confirmed that orthoDmax is better correlated with the alternative rupture risk
predictors PWS and PWRR for angulated AAAs ( Da-o>=3mm) while there is no difference
between orthoDmax and axialDmax for straight AAAs ( Da-o<3). As angulated AAAs
represent a significant portion of cases it can be recommended to use orthoDmax as the only
Dmax parameter for AAA rupture risk assessment.
[klicova_slova] => Abdominal aortic aneurysm; Correlation analysis, Maximal diameter, Peak wall stress, Peak wall rupture risk
[klicova_slova_orig] => Abdominal aortic aneurysm; Correlation analysis, Maximal diameter, Peak wall stress, Peak wall rupture risk
[url] => https://authors.elsevier.com/a/1UgPl2OYck5L5
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[identifikator] => ISSN 0010-4825
[identifikator_popis] => ISSN - Computers in Biology and Medicine (US)
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[citace_text] => NOVÁK, K.; POLZER, S.; KŘIVKA, T.; VLACHOVSKÝ, R.; STAFFA, R.; KUBÍČEK, L.; LAMBERT, L.; BURŠA, J. Correlation between transversal and orthogonal maximal diameters of abdominal aortic aneurysms and alternative rupture risk predictors. Computers in Biology and Medicine, 2017, vol. 83, no. 3, p. 151-156. ISSN: 0010-4825.
[citace_html] => NOVÁK, K.; POLZER, S.; KŘIVKA, T.; VLACHOVSKÝ, R.; STAFFA, R.; KUBÍČEK, L.; LAMBERT, L.; BURŠA, J. Correlation between transversal and orthogonal maximal diameters of abdominal aortic aneurysms and alternative rupture risk predictors. Computers in Biology and Medicine, 2017, vol. 83, no. 3, p. 151-156. ISSN: 0010-4825.
[citace_rtf] =>
[citace_bibtex] => @article{BUT134010,
author="Kamil {Novák} and Stanislav {Polzer} and Tomáš {Křivka} and Robert {Vlachovský} and Robert {Staffa} and Luboš {Kubíček} and Lukáš {Lambert} and Jiří {Burša}",
title="Correlation between transversal and orthogonal maximal diameters of abdominal aortic aneurysms and alternative rupture risk predictors",
journal="Computers in Biology and Medicine",
year="2017",
volume="83",
number="3",
pages="151--156",
doi="10.1016/j.compbiomed.2017.03.005",
issn="0010-4825",
url="https://authors.elsevier.com/a/1UgPl2OYck5L5"
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[nazev_en] => Correlation between transversal and orthogonal maximal diameters of abdominal aortic aneurysms and alternative rupture risk predictors
[popis_en] => Purpose:
There is no standard for measuring maximal diameter (Dmax) of abdominal aortic
aneurysm (AAA) from computer tomography (CT) images although differences between
Dmax evaluated from transversal (axialDmax) or orthogonal (orthoDmax) planes can be large
especially for angulated AAAs. Therefore we investigated their correlations with alternative
rupture risk indicators as peak wall stress (PWS) and peak wall rupture risk (PWRR) to decide
which Dmax is more relevant in AAA rupture risk assessment.
Material and Methods
The Dmax values were measured by a trained radiologist from 70 collected CT scans, and the
corresponding PWS and PWRR were evaluated using Finite Element Analysis (FEA). The
cohort was ordered according to the difference between axialDmax and orthoDmax ( Da-o)
quantifying the aneurysm angulation, and Spearman’s correlation coefficients between
PWS/PWRR – orthoDmax/axialDmax were calculated.
Results
The calculated correlations PWS/PWRR vs. orthoDmax were substantially higher for
angulated AAAs (with Da-o >= 3mm ). Under this limit, the correlations were almost the same
for both Dmax values. Analysis of AAAs divided into two groups of angulated (n=38) and
straight (n=32) cases revealed that both groups are similar in all parameters (orthoDmax,
PWS, PWRR) with the exception of axialDmax (p=0.024).
Conclusions
It was confirmed that orthoDmax is better correlated with the alternative rupture risk
predictors PWS and PWRR for angulated AAAs ( Da-o>=3mm) while there is no difference
between orthoDmax and axialDmax for straight AAAs ( Da-o<3). As angulated AAAs
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Dmax parameter for AAA rupture risk assessment.
[klicova_slova_en] => Abdominal aortic aneurysm; Correlation analysis, Maximal diameter, Peak wall stress, Peak wall rupture risk
[vysledek_datum] => 2017-04-01T00:00:00+02:00
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title="Vývoj hřídelí III",
year="2016",
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address="Brno",
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title="Selection of MEMS Accelerometers for Tilt Measurements",
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volume="2017",
number="9796146",
pages="1--13",
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monitoring.
[klicova_slova] => Signal segmentation, Change point detection, Motion analysis, Trigg’s tracking signal.
[klicova_slova_orig] => Signal segmentation, Change point detection, Motion analysis, Trigg’s tracking signal.
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[citace_text] => KUMPÁN, P. Segmentation of Human Motion Acceleration with Probabilistic Classifier. In ENGINEERING MECHANICS 2017. 2017. Brno: Brno University of Technology, 2017. p. 566-569. ISBN: 978-80-214-5497-2.
[citace_html] => KUMPÁN, P. Segmentation of Human Motion Acceleration with Probabilistic Classifier. In ENGINEERING MECHANICS 2017. 2017. Brno: Brno University of Technology, 2017. p. 566-569. ISBN: 978-80-214-5497-2.
[citace_rtf] =>
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author="Pavel {Kumpán}",
title="Segmentation of Human Motion Acceleration with Probabilistic Classifier",
booktitle="ENGINEERING MECHANICS 2017",
year="2017",
series="2017",
number="1",
pages="566--569",
publisher="Brno University of Technology",
address="Brno",
isbn="978-80-214-5497-2"
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method is in fields of sport training or health condition monitoring but it can be also used in technical
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optimization method. As a result, user can automate and control parameter estimations for time-consuming
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to use the arbitrary combination of a model and a measured data for the construction of cost function of the
optimization process. This enables to formulate various tasks briefly outlined in this paper including
comparison of several candidate models or performing estimations of models with shared parameters.
Furthermore, all temporary simulation results are stored and later can be browsed and viewed by user. This
enables to get very clear visual insight into the estimation problem and especially increases the usefulness of
the Brute force method use. Finally, the tool allows to cope actively with the problem of initial guesses of an
optimization method. As a result, user can automate and control parameter estimations for time-consuming
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[citace_text] => APPEL, M.; GREPL, R. PARAMETER ESTIMATION FOR ENGINEERS: A NEW TOOL FOR EFFECTIVE SEARCH FOR SIMULINK MODEL PARAMETERS. In ENGINEERING MECHANICS 2017. 2017. Brno: Institute of Solid Mechanics, Mechatronics and Biomechanics, Faculty of Mechanical Engineering, Brno University of Technology, 2017. p. 90-93. ISBN: 978-80-214-5497-2.
[citace_html] => APPEL, M.; GREPL, R. PARAMETER ESTIMATION FOR ENGINEERS: A NEW TOOL FOR EFFECTIVE SEARCH FOR SIMULINK MODEL PARAMETERS. In ENGINEERING MECHANICS 2017. 2017. Brno: Institute of Solid Mechanics, Mechatronics and Biomechanics, Faculty of Mechanical Engineering, Brno University of Technology, 2017. p. 90-93. ISBN: 978-80-214-5497-2.
[citace_rtf] =>
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author="Martin {Appel} and Robert {Grepl}",
title="PARAMETER ESTIMATION FOR ENGINEERS: A NEW TOOL FOR EFFECTIVE SEARCH FOR SIMULINK MODEL PARAMETERS",
booktitle="ENGINEERING MECHANICS 2017",
year="2017",
series="2017",
pages="90--93",
publisher="Institute of Solid Mechanics, Mechatronics and Biomechanics, Faculty of Mechanical Engineering, Brno University of Technology",
address="Brno",
isbn="978-80-214-5497-2",
url="http://www.engmech.cz/im/doc/EM2017_proceedings_all.pdf"
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[popis_en] => An estimation of Simulink model parameters is very important problem in field of system
identification in mechatronics. This paper describes features and advantages of the New Parameter
Estimation Tool developed with respect to particular engineering needs. Among other things, the tool allows
to use the arbitrary combination of a model and a measured data for the construction of cost function of the
optimization process. This enables to formulate various tasks briefly outlined in this paper including
comparison of several candidate models or performing estimations of models with shared parameters.
Furthermore, all temporary simulation results are stored and later can be browsed and viewed by user. This
enables to get very clear visual insight into the estimation problem and especially increases the usefulness of
the Brute force method use. Finally, the tool allows to cope actively with the problem of initial guesses of an
optimization method. As a result, user can automate and control parameter estimations for time-consuming
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[klicova_slova] => Simulation of phonation; SST turbulence model; Fluid-structure-acoustic interaction; Finite element method; Biomechanics of voice
[klicova_slova_orig] => Simulation of phonation; SST turbulence model; Fluid-structure-acoustic interaction; Finite element method; Biomechanics of voice
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[citace_text] => HÁJEK, P.; ŠVANCARA, P.; HORÁČEK, J.; ŠVEC, J. Effects of Turbulence in FE Model of Human Vocal Folds Self-oscillation. In Engineering Mechanics 2017. Engineering Mechanics. Svratka: Institute of Thermomechanics, Academy of Sciences of the Czech Republic, v. v. i., Prague, 2017. no. 1, p. 366-369. ISBN: 978-80-214-5497-2. ISSN: 1805-8248.
[citace_html] => HÁJEK, P.; ŠVANCARA, P.; HORÁČEK, J.; ŠVEC, J. Effects of Turbulence in FE Model of Human Vocal Folds Self-oscillation. In Engineering Mechanics 2017. Engineering Mechanics. Svratka: Institute of Thermomechanics, Academy of Sciences of the Czech Republic, v. v. i., Prague, 2017. no. 1, p. 366-369. ISBN: 978-80-214-5497-2. ISSN: 1805-8248.
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title="Effects of Turbulence in FE Model of Human Vocal Folds Self-oscillation",
booktitle="Engineering Mechanics 2017",
year="2017",
journal="Engineering Mechanics",
volume="23",
number="1",
pages="366--369",
publisher="Institute of Thermomechanics, Academy of Sciences of the Czech Republic, v. v. i., Prague",
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[popis] => Medical grade 3D printing offers the possibility to manufacture patient-specific implants to treat cranial defects. The performance of the implant assembly depends on many factors, such as material, thickness, size and manufacturing accuracy. A significant factor in the stability and success of the assembly is the fixation method. Cranial implants are usually fixed to the skull by means of mini-plates. Biomechanical assessment of fixing the implant to the skull might be helpful not only for mini-plate design but might be beneficial also for the surgeons. In this study, four different mini-plate designs were analyzed and compared based on the stress-strain analysis of one cranial implant fixed at three locations by mini-plates. Computational simulations were done using Finite Element Method.
[popis_orig] => Medical grade 3D printing offers the possibility to manufacture patient-specific implants to treat cranial defects. The performance of the implant assembly depends on many factors, such as material, thickness, size and manufacturing accuracy. A significant factor in the stability and success of the assembly is the fixation method. Cranial implants are usually fixed to the skull by means of mini-plates. Biomechanical assessment of fixing the implant to the skull might be helpful not only for mini-plate design but might be beneficial also for the surgeons. In this study, four different mini-plate designs were analyzed and compared based on the stress-strain analysis of one cranial implant fixed at three locations by mini-plates. Computational simulations were done using Finite Element Method.
[klicova_slova] => Cranial implants; Fixation mini-plates; FEA; Polymethyl Methacrylate; Stress-strain analysis
[klicova_slova_orig] => Cranial implants; Fixation mini-plates; FEA; Polymethyl Methacrylate; Stress-strain analysis
[url] => https://link.springer.com/chapter/10.1007/978-981-10-5122-7_187
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[citace_text] => CHAMRAD, J.; MARCIÁN, P.; NARRA, N.; BORÁK, L. Evaluating Different Shapes of Cranial Fixation Mini-plates Using Finite Element Method. In EMBEC’17 & NBC’17. IFMBE Proceedings. Springer, 2017. no. 65, p. 747-750. ISSN: 1680-0737.
[citace_html] => CHAMRAD, J.; MARCIÁN, P.; NARRA, N.; BORÁK, L. Evaluating Different Shapes of Cranial Fixation Mini-plates Using Finite Element Method. In EMBEC’17 & NBC’17. IFMBE Proceedings. Springer, 2017. no. 65, p. 747-750. ISSN: 1680-0737.
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[nazev_en] => Evaluating Different Shapes of Cranial Fixation Mini-plates Using Finite Element Method
[popis_en] => Medical grade 3D printing offers the possibility to manufacture patient-specific implants to treat cranial defects. The performance of the implant assembly depends on many factors, such as material, thickness, size and manufacturing accuracy. A significant factor in the stability and success of the assembly is the fixation method. Cranial implants are usually fixed to the skull by means of mini-plates. Biomechanical assessment of fixing the implant to the skull might be helpful not only for mini-plate design but might be beneficial also for the surgeons. In this study, four different mini-plate designs were analyzed and compared based on the stress-strain analysis of one cranial implant fixed at three locations by mini-plates. Computational simulations were done using Finite Element Method.
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[popis] => In this study 6 pre-operative designs for PMMA based reconstructions of cranial defects were evaluated for their mechanical robustness using finite element modeling. Clinical experience and engineering principles were employed to create multiple plan options, which were subsequently computationally analyzed for mechanically relevant parameters under 50N loads: stress, strain and deformation in various components of the assembly. The factors assessed were: defect size, location and shape. The major variable in the cranioplasty assembly design was the arrangement of the fixation plates. An additional study variable introduced was the location of the 50N load within the implant area. It was found that in smaller defects, it was simpler to design a symmetric distribution of plates and under limited variability in load location it was possible to design an optimal for expected loads. However, for very large defects with complex shapes, the variability in the load locations introduces complications to the intuitive design of the optimal assembly. The study shows that it can be beneficial to incorporate multi design computational analyses to decide upon the most optimal plan for a clinical case.
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[klicova_slova] => Cranioplasty; FEM; PMMA; Cranial implant; Mechanical properties; plate distribution; fixation geometry
[klicova_slova_orig] => Cranioplasty; FEM; PMMA; Cranial implant; Mechanical properties; plate distribution; fixation geometry
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[nazev] => Crack bridging modelling in Bioglass ®based scaffolds reinforced by poly-vinyl alcohol/microfibrillated cellulose composite coating
[nazev_orig] => Crack bridging modelling in Bioglass ®based scaffolds reinforced by poly-vinyl alcohol/microfibrillated cellulose composite coating
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[klicova_slova] => Irregular foam structure; Voronoi tessellation; FEM; Polymer coating; Crack bridging
[klicova_slova_orig] => Irregular foam structure; Voronoi tessellation; FEM; Polymer coating; Crack bridging
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[nazev_en] => Crack bridging modelling in Bioglass ®based scaffolds reinforced by poly-vinyl alcohol/microfibrillated cellulose composite coating
[popis_en] => The paper deals with crack bridging modelling in Bioglass ®based scaffolds due the presence of a spe- cial polymer coating. This includes a careful modelling of the scaffold which is based on x-ray computed micro-tomography (micro-CT) scans and identification of bridging mechanism with the aid of extensive fractographic observations of coated, broken struts. A replacement of the real structure of scaffold by a periodic model utilizing Kelvin cell whose size corresponds to the mean cell size of the real foam is discussed. The struts of the idealized foam are modelled using the beam elements. A detailed computa- tional analysis of crack bridging due to coating film fibrils under plane strain conditions is presented and an improvement of fracture resistance of coated scaffolds is explained.
[klicova_slova_en] => Irregular foam structure; Voronoi tessellation; FEM; Polymer coating; Crack bridging
[vysledek_datum] => 2017-04-19T00:00:00+02:00
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[title] => Study of Fracture Behaviour of Doped Polycrystalline Fe Alloy
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[title] => Crack bridging modelling in Bioglass ®based scaffolds reinforced by poly-vinyl alcohol/microfibrillated cellulose composite coating
[typ] => PV
[year] => 2017
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