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[citace_text] => ŠTEGNEROVÁ, K.; NÁHLÍK, L.; HUTAŘ, P.; POKORNÝ, P.; MAJER, Z. Influence of residual stresses and particle properties on mechanical response of the material in particulate ceramic composites. Key Engineering Materials (print), 2016, vol. 1, no. 713, p. 212-215. ISSN: 1013-9826.
[citace_html] => ŠTEGNEROVÁ, K.; NÁHLÍK, L.; HUTAŘ, P.; POKORNÝ, P.; MAJER, Z. Influence of residual stresses and particle properties on mechanical response of the material in particulate ceramic composites. Key Engineering Materials (print), 2016, vol. 1, no. 713, p. 212-215. ISSN: 1013-9826.
[citace_rtf] =>
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title="Influence of residual stresses and particle properties on mechanical response of the material in particulate ceramic composites",
journal="Key Engineering Materials (print)",
year="2016",
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number="713",
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doi="10.4028/www.scientific.net/KEM.713.212",
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[nazev_en] => Influence of residual stresses and particle properties on mechanical response of the material in particulate ceramic composites
[popis_en] => Contribution deals with the issue of mechanical response of the particulate ceramic composites used in microelectronic. Mechanical properties and behaviour of composites are highly influenced by residual stresses which are developed in material during cooling in manufacturing process due to the different coefficients of thermal expansions of individual constituents. The main aim of this paper is to estimate the elastic constants and strength of the selected particulate ceramic composites with considering the residual stresses. Three dimensional model and finite element method are used for numerical simulations. Results lead to determination and better understanding of mechanical behaviour of the studied particulate composites.
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[citace_text] => Design of the blisk of an aircraft turbojet engine and verification of its resonance free operation. Applied andComputational Mechanics, 2016, vol. 1, no. 10, p. 5-14. ISSN: 1802-680X.
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[popis] => Energy harvesting systems provide an alternative solution to conventional energy sources by utilizing some form of energy from the ambient environment followed by its conversion to useful electric energy. Designing an efficient energy harvester requires prior knowledge and analysis of the conditions in the location of its intended installation. Therefore, an original energy harvesting solution is needed for every application. The development process of energy harvesters could be sped up by using modular fully parametric models of the system components. These models are developed from basic physical principles in such a way, that they can be freely combined into the multidisciplinary model of the system. The modules are intended to be used for the fast prototyping, comparison of different topologies and transducer types and for prediction of the possible output energy levels. The main motivation for a derivation of such models is their future implementation to the energy harvesting course for mechatronic engineering students. That will allow students to focus on the practical issues of designing an energy harvester for real-life applications using real input data instead of building, debugging and optimizing generic models of the energy harvesting transducers.
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[citace_text] => SMILEK, J.; JANÁK, L.; HADAŠ, Z. Modular Multidisciplinary Models for Prototyping Energy Harvesting Products. In Recent Global Research and Education: Technological Challenges. Advances in Intelligent Systems and Computing. Berlín: Springer, 2016. p. 395-401. ISBN: 978-3-319-46489-3. ISSN: 2194-5357.
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author="Jan {Smilek} and Luděk {Janák} and Zdeněk {Hadaš}",
title="Modular Multidisciplinary Models for Prototyping Energy Harvesting Products",
booktitle="Recent Global Research and Education: Technological Challenges",
year="2016",
journal="Advances in Intelligent Systems and Computing",
volume="519",
pages="395--401",
publisher="Springer",
address="Berlín",
doi="10.1007/978-3-319-46490-9\{_}53",
isbn="978-3-319-46489-3",
issn="2194-5357",
url="http://link.springer.com/chapter/10.1007/978-3-319-46490-9_53"
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[nazev_en] => Modular Multidisciplinary Models for Prototyping Energy Harvesting Products
[popis_en] => Energy harvesting systems provide an alternative solution to conventional energy sources by utilizing some form of energy from the ambient environment followed by its conversion to useful electric energy. Designing an efficient energy harvester requires prior knowledge and analysis of the conditions in the location of its intended installation. Therefore, an original energy harvesting solution is needed for every application. The development process of energy harvesters could be sped up by using modular fully parametric models of the system components. These models are developed from basic physical principles in such a way, that they can be freely combined into the multidisciplinary model of the system. The modules are intended to be used for the fast prototyping, comparison of different topologies and transducer types and for prediction of the possible output energy levels. The main motivation for a derivation of such models is their future implementation to the energy harvesting course for mechatronic engineering students. That will allow students to focus on the practical issues of designing an energy harvester for real-life applications using real input data instead of building, debugging and optimizing generic models of the energy harvesting transducers.
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[citace_text] => HÁJEK, P.; ŠVANCARA, P.; HORÁČEK, J.; ŠVEC, J. Numerical Simulation of the Self-oscillating Vocal Folds in Interaction with Vocal Tract Shaped for Particular Czech Vowels. In Recent Global Research and Education: Technological Challenges: Proceedings of the 15th International Conference on Global Research and Education Inter-Academia 2016. Advances in Intelligent Systems and Computing. Warsaw: Springer Verlag, 2016. no. 1, p. 317-323. ISBN: 978-3-319-46490-9. ISSN: 2194-5357.
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[citace_bibtex] => @inproceedings{BUT128587,
author="Petr {Hájek} and Pavel {Švancara} and Jaromír {Horáček} and Jan G. {Švec}",
title="Numerical Simulation of the Self-oscillating Vocal Folds in Interaction with Vocal Tract Shaped for Particular Czech Vowels",
booktitle="Recent Global Research and Education: Technological Challenges: Proceedings of the 15th International Conference on Global Research and Education Inter-Academia 2016",
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journal="Advances in Intelligent Systems and Computing",
volume="519",
number="1",
pages="317--323",
publisher="Springer Verlag",
address="Warsaw",
doi="10.1007/978-3-319-46490-9\{_}43",
isbn="978-3-319-46490-9",
issn="2194-5357",
url="http://link.springer.com/10.1007/978-3-319-46490-9_43"
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[nazev] => Effect of particles size on mechanical properties of polypropylene particulate composites
[nazev_orig] => Effect of particles size on mechanical properties of polypropylene particulate composites
[duvernost_udaju_id] => S
[popis] => Polymeric particulate composites with thermoplastics, especially polypropylene (PP) matrix with mineral fillers, are of great practical importance due to their simple possibility of modifying mechanical properties and reducing the price/volume ratio of the resulting material. Both filler properties and interface properties have a great effect on the mechanical properties, primarily on stiffness and toughness, of the resulting composite material. Good final dispersion of the filler particles also plays a very important role. To reach the best adhesion and distribution of the particles, various procedures are carried out for activation of the particles. Therefore, the purpose of this paper is to investigate and discuss the effect of using plasma as a tool for treating commercially available CaCO3 nanoparticles in PP matrix.
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[klicova_slova] => Morphology, Mechanical properties, Numerical simulation, Polypropylene particulate composites, Plasma surface treatment
[klicova_slova_orig] => Morphology, Mechanical properties, Numerical simulation, Polypropylene particulate composites, Plasma surface treatment
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[citace_rtf] =>
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title="Effect of particles size on mechanical properties of polypropylene particulate composites",
journal="International Journal of Structural Integrity",
year="2016",
volume="7",
number="5",
pages="690--699",
doi="10.1108/IJSI-09-2015-0030",
issn="1757-9864",
url="http://www.emeraldinsight.com/doi/pdfplus/10.1108/IJSI-09-2015-0030"
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[popis_en] => Polymeric particulate composites with thermoplastics, especially polypropylene (PP) matrix with mineral fillers, are of great practical importance due to their simple possibility of modifying mechanical properties and reducing the price/volume ratio of the resulting material. Both filler properties and interface properties have a great effect on the mechanical properties, primarily on stiffness and toughness, of the resulting composite material. Good final dispersion of the filler particles also plays a very important role. To reach the best adhesion and distribution of the particles, various procedures are carried out for activation of the particles. Therefore, the purpose of this paper is to investigate and discuss the effect of using plasma as a tool for treating commercially available CaCO3 nanoparticles in PP matrix.
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[popis] => This contribution gives an overview of different fracture-mechanics issues occurring in layered ceramics designed with internal compressive residual stresses (such as the edge cracking, crack arrest by the compressive layer or crack deflection/bifurcation) and proposes an effective approach to describe the initiation and/or propagation of cracks in such materials. The finite fracture mechanics (FFM) theory and the coupled stress-energy criterion (CC) are discussed and applied to understand their fracture behavior. A case study is investigated, where edge cracking in compressive layers can be predicted as a function of the thickness of the compressive layer and the magnitude of residual stresses. Another case study concerns the onset of a crack in a notched sample of a layered ceramic submitted to bending. The propagation of the crack through the ceramic laminate is studied as a function of the volume ratio of particular material components and corresponding magnitude of residual stresses in both compressive and tensile layers. Under certain combination of residual stress and layered architecture, the CC predicts crack arrest in the internal compressive layer
of the laminate in accordance with experimental observations under similar loading conditions.
[popis_orig] => This contribution gives an overview of different fracture-mechanics issues occurring in layered ceramics designed with internal compressive residual stresses (such as the edge cracking, crack arrest by the compressive layer or crack deflection/bifurcation) and proposes an effective approach to describe the initiation and/or propagation of cracks in such materials. The finite fracture mechanics (FFM) theory and the coupled stress-energy criterion (CC) are discussed and applied to understand their fracture behavior. A case study is investigated, where edge cracking in compressive layers can be predicted as a function of the thickness of the compressive layer and the magnitude of residual stresses. Another case study concerns the onset of a crack in a notched sample of a layered ceramic submitted to bending. The propagation of the crack through the ceramic laminate is studied as a function of the volume ratio of particular material components and corresponding magnitude of residual stresses in both compressive and tensile layers. Under certain combination of residual stress and layered architecture, the CC predicts crack arrest in the internal compressive layer
of the laminate in accordance with experimental observations under similar loading conditions.
[klicova_slova] => Layered ceramics; crack bifurcation; edge cracking; Finite Fracture Mechanics; Coupled Criterion
[klicova_slova_orig] => Layered ceramics; crack bifurcation; edge cracking; Finite Fracture Mechanics; Coupled Criterion
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[citace_text] => ŠEVEČEK, O.; KOTOUL, M.; LEGUILLON, D.; MARTIN, É.; BERMEJO, R. Assessment of crack-related problems in layered ceramics using the finite fracture mechanics and coupled stress-energy criterion. In Procedia Structural Integrity. Procedia Structural Integrity. Itálie: Elsevier, 2016. no. 1, p. 2014-2021. ISSN: 2452-3216.
[citace_html] => ŠEVEČEK, O.; KOTOUL, M.; LEGUILLON, D.; MARTIN, É.; BERMEJO, R. Assessment of crack-related problems in layered ceramics using the finite fracture mechanics and coupled stress-energy criterion. In Procedia Structural Integrity. Procedia Structural Integrity. Itálie: Elsevier, 2016. no. 1, p. 2014-2021. ISSN: 2452-3216.
[citace_rtf] =>
[citace_bibtex] => @inproceedings{BUT129250,
author="Oldřich {Ševeček} and Michal {Kotoul} and Dominique {Leguillon} and Éric {Martin} and Raul {Bermejo}",
title="Assessment of crack-related problems in layered ceramics using the finite fracture mechanics and coupled stress-energy criterion",
booktitle="Procedia Structural Integrity",
year="2016",
journal="Procedia Structural Integrity",
volume="2",
number="1",
pages="2014--2021",
publisher="Elsevier",
address="Itálie",
doi="10.1016/j.prostr.2016.06.253",
url="http://www.sciencedirect.com/science/article/pii/S2452321616302645"
}
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[poznamka_metriky] =>
[nazev_en] => Assessment of crack-related problems in layered ceramics using the finite fracture mechanics and coupled stress-energy criterion
[popis_en] => This contribution gives an overview of different fracture-mechanics issues occurring in layered ceramics designed with internal compressive residual stresses (such as the edge cracking, crack arrest by the compressive layer or crack deflection/bifurcation) and proposes an effective approach to describe the initiation and/or propagation of cracks in such materials. The finite fracture mechanics (FFM) theory and the coupled stress-energy criterion (CC) are discussed and applied to understand their fracture behavior. A case study is investigated, where edge cracking in compressive layers can be predicted as a function of the thickness of the compressive layer and the magnitude of residual stresses. Another case study concerns the onset of a crack in a notched sample of a layered ceramic submitted to bending. The propagation of the crack through the ceramic laminate is studied as a function of the volume ratio of particular material components and corresponding magnitude of residual stresses in both compressive and tensile layers. Under certain combination of residual stress and layered architecture, the CC predicts crack arrest in the internal compressive layer
of the laminate in accordance with experimental observations under similar loading conditions.
[klicova_slova_en] => Layered ceramics; crack bifurcation; edge cracking; Finite Fracture Mechanics; Coupled Criterion
[vysledek_datum] => 2016-06-20T00:00:00+02:00
)
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[popis] =>
[popis_orig] =>
[klicova_slova] =>
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[url] => http://www.ecf21.eu/site/
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[citace_html] => 21st European Conference on Fracture (ECF21). Catania (20.06.2016)
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title="21st European Conference on Fracture (ECF21)",
year="2016",
url="http://www.ecf21.eu/site/",
note="Holding a conference"
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[nazev] => Modelling of edge crack formation and propagation in ceramic laminates using the stress–energy coupled criterion
[nazev_orig] => Modelling of edge crack formation and propagation in ceramic laminates using the stress–energy coupled criterion
[duvernost_udaju_id] => S
[popis] => The high compressive stresses in ceramic laminates utilized to enhance their fracture resistance may lead to the formation of edge cracks at the surface of the compressive layers. In this work, a 2D parametric numerical model is developed to assess the effect of residual stress and thickness of the compressive layers on the edge crack formation, by using a coupled stress–energy criterion. The results predict the existence of a lower bound, below which no edge crack occurs (i.e. obtaining crack-free laminates), and an upper bound, beyond which onset of the edge crack would lead to the complete delamination of the compressive layer.
[popis_orig] => The high compressive stresses in ceramic laminates utilized to enhance their fracture resistance may lead to the formation of edge cracks at the surface of the compressive layers. In this work, a 2D parametric numerical model is developed to assess the effect of residual stress and thickness of the compressive layers on the edge crack formation, by using a coupled stress–energy criterion. The results predict the existence of a lower bound, below which no edge crack occurs (i.e. obtaining crack-free laminates), and an upper bound, beyond which onset of the edge crack would lead to the complete delamination of the compressive layer.
[klicova_slova] => Edge crack; residual stresses; ceramic laminate; FE analysis; Coupled Criterion
[klicova_slova_orig] => Edge crack; residual stresses; ceramic laminate; FE analysis; Coupled Criterion
[url] => http://www.sciencedirect.com/science/article/pii/S001379441630145X
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[identifikator] => ISSN 0013-7944
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[citace_text] => ŠEVEČEK, O.; KOTOUL, M.; LEGUILLON, D.; MARTIN, É.; BERMEJO, R. Modelling of edge crack formation and propagation in ceramic laminates using the stress–energy coupled criterion. ENGINEERING FRACTURE MECHANICS, 2016, vol. 167, no. 2016, p. 45-55. ISSN: 0013-7944.
[citace_html] => ŠEVEČEK, O.; KOTOUL, M.; LEGUILLON, D.; MARTIN, É.; BERMEJO, R. Modelling of edge crack formation and propagation in ceramic laminates using the stress–energy coupled criterion. ENGINEERING FRACTURE MECHANICS, 2016, vol. 167, no. 2016, p. 45-55. ISSN: 0013-7944.
[citace_rtf] =>
[citace_bibtex] => @article{BUT129252,
author="Oldřich {Ševeček} and Michal {Kotoul} and Dominique {Leguillon} and Éric {Martin} and Raul {Bermejo}",
title="Modelling of edge crack formation and propagation in ceramic laminates using the stress–energy coupled criterion",
journal="ENGINEERING FRACTURE MECHANICS",
year="2016",
volume="167",
number="2016",
pages="45--55",
doi="10.1016/j.engfracmech.2016.03.039",
issn="0013-7944",
url="http://www.sciencedirect.com/science/article/pii/S001379441630145X"
}
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[poznamka_metriky] =>
[nazev_en] => Modelling of edge crack formation and propagation in ceramic laminates using the stress–energy coupled criterion
[popis_en] => The high compressive stresses in ceramic laminates utilized to enhance their fracture resistance may lead to the formation of edge cracks at the surface of the compressive layers. In this work, a 2D parametric numerical model is developed to assess the effect of residual stress and thickness of the compressive layers on the edge crack formation, by using a coupled stress–energy criterion. The results predict the existence of a lower bound, below which no edge crack occurs (i.e. obtaining crack-free laminates), and an upper bound, beyond which onset of the edge crack would lead to the complete delamination of the compressive layer.
[klicova_slova_en] => Edge crack; residual stresses; ceramic laminate; FE analysis; Coupled Criterion
[vysledek_datum] => 2016-11-04T00:00:00+01:00
)
[12] => Array
(
[vysledek_id] => 129377
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[nazev] => FE Modelling of the Influence of the Lamina Propria Properties on the Vocal Folds Vibration and Produced Sound for Specific Czech Vowels
[nazev_orig] => FE Modelling of the Influence of the Lamina Propria Properties on the Vocal Folds Vibration and Produced Sound for Specific Czech Vowels
[duvernost_udaju_id] => S
[popis] => Presented two-dimensional (2D) finite element (FE) model of the flow-induced self-oscillation of the human vocal folds (VF) enables solving fluid-structure-acoustic interaction occurring during phonation. The aim is to analyze the acoustic wave propagation for Czech vowels [a:], [i:] and [u:] on change of the superficial lamina propria (SLP) properties. The 2D FE model includes setting to phonatory position with the VF pretension, large deformation of VF tissues and their contact (structural model) and unsteady viscous compressible airflow separated during glottal closure and described by the Navier-Stokes (NS) equations (fluid model, comprises of the FE model of the trachea, glottis and the vocal tract (VT)). The fluid mesh morphs according to the VF motion (Arbitrary Lagrangian-Eulerian approach) and geometry of the aforementioned VT was obtained from MRI. Such a symmetrical or unsymmetrical variation of the SLP properties accompanies diverse VF pathologies, thus numerical results may reveal new phenomena of them.
[popis_orig] => Presented two-dimensional (2D) finite element (FE) model of the flow-induced self-oscillation of the human vocal folds (VF) enables solving fluid-structure-acoustic interaction occurring during phonation. The aim is to analyze the acoustic wave propagation for Czech vowels [a:], [i:] and [u:] on change of the superficial lamina propria (SLP) properties. The 2D FE model includes setting to phonatory position with the VF pretension, large deformation of VF tissues and their contact (structural model) and unsteady viscous compressible airflow separated during glottal closure and described by the Navier-Stokes (NS) equations (fluid model, comprises of the FE model of the trachea, glottis and the vocal tract (VT)). The fluid mesh morphs according to the VF motion (Arbitrary Lagrangian-Eulerian approach) and geometry of the aforementioned VT was obtained from MRI. Such a symmetrical or unsymmetrical variation of the SLP properties accompanies diverse VF pathologies, thus numerical results may reveal new phenomena of them.
[klicova_slova] => biomechanics of voice; finite element method; fluid-structure-acoustic interaction; simulation of phonation
[klicova_slova_orig] => biomechanics of voice; finite element method; fluid-structure-acoustic interaction; simulation of phonation
[url] =>
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[citace_text] => HÁJEK, P.; ŠVANCARA, P.; HORÁČEK, J.; ŠVEC, J. FE Modelling of the Influence of the Lamina Propria Properties on the Vocal Folds Vibration and Produced Sound for Specific Czech Vowels. In Computational Mechanics 2016: Book of extended abstracts. Plzeň: University of West Bohemia, 2016. p. 23-24. ISBN: 978-80-261-0647-0.
[citace_html] => HÁJEK, P.; ŠVANCARA, P.; HORÁČEK, J.; ŠVEC, J. FE Modelling of the Influence of the Lamina Propria Properties on the Vocal Folds Vibration and Produced Sound for Specific Czech Vowels. In Computational Mechanics 2016: Book of extended abstracts. Plzeň: University of West Bohemia, 2016. p. 23-24. ISBN: 978-80-261-0647-0.
[citace_rtf] =>
[citace_bibtex] => @inproceedings{BUT129377,
author="Petr {Hájek} and Pavel {Švancara} and Jaromír {Horáček} and Jan G. {Švec}",
title="FE Modelling of the Influence of the Lamina Propria Properties on the Vocal Folds Vibration and Produced Sound for Specific Czech Vowels",
booktitle="Computational Mechanics 2016: Book of extended abstracts",
year="2016",
number="32",
pages="23--24",
publisher="University of West Bohemia",
address="Plzeň",
isbn="978-80-261-0647-0"
}
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[nazev_en] => FE Modelling of the Influence of the Lamina Propria Properties on the Vocal Folds Vibration and Produced Sound for Specific Czech Vowels
[popis_en] => Presented two-dimensional (2D) finite element (FE) model of the flow-induced self-oscillation of the human vocal folds (VF) enables solving fluid-structure-acoustic interaction occurring during phonation. The aim is to analyze the acoustic wave propagation for Czech vowels [a:], [i:] and [u:] on change of the superficial lamina propria (SLP) properties. The 2D FE model includes setting to phonatory position with the VF pretension, large deformation of VF tissues and their contact (structural model) and unsteady viscous compressible airflow separated during glottal closure and described by the Navier-Stokes (NS) equations (fluid model, comprises of the FE model of the trachea, glottis and the vocal tract (VT)). The fluid mesh morphs according to the VF motion (Arbitrary Lagrangian-Eulerian approach) and geometry of the aforementioned VT was obtained from MRI. Such a symmetrical or unsymmetrical variation of the SLP properties accompanies diverse VF pathologies, thus numerical results may reveal new phenomena of them.
[klicova_slova_en] => biomechanics of voice; finite element method; fluid-structure-acoustic interaction; simulation of phonation
[vysledek_datum] => 2016-10-31T00:00:00+01:00
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[nazev] => Thermal Model of High Speed Asynchronous Machine
[nazev_orig] => Thermal Model of High Speed Asynchronous Machine
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[popis] => The thermal analysis of high speed machine is necessary made to check of serviceability. The temperatures of electric machine individual parts influence other aspects of electric machine design. This paper deals with modeling of thermal phenomena of high seed asynchronous machine. The main requirement for this model is easy integration into electromagnetic model. The Computational fluid dynamics (CFD) analysis can be used to determine some boundary condition of thermal model that aren't commonly known for high speed machine.
[popis_orig] => The thermal analysis of high speed machine is necessary made to check of serviceability. The temperatures of electric machine individual parts influence other aspects of electric machine design. This paper deals with modeling of thermal phenomena of high seed asynchronous machine. The main requirement for this model is easy integration into electromagnetic model. The Computational fluid dynamics (CFD) analysis can be used to determine some boundary condition of thermal model that aren't commonly known for high speed machine.
[klicova_slova] => CFD modeling; high speed electric machine; thermal modeling; water cooling
[klicova_slova_orig] => CFD modeling; high speed electric machine; thermal modeling; water cooling
[url] => https://ieeexplore.ieee.org/document/7827827
[oecd_obor_id] => 20301
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[odpovedny_utvar_nazev] => Institute of Solid Mechanics, Mechatronics and Biomechanics
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[nadrazena_soucast_zkratka] => FME
[nadrazena_soucast_nazev] => Faculty of Mechanical Engineering
[originalni_jazyk] => en
[schvalil_id] => 107598
[schvaleno] => 2021-03-04
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[vycet_osob] => VLACH, R.; HUZLÍK, R.
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[vlozil] => Informační systém Automat
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[ins_ts] => 2025-09-22
[upd_ts] => 2025-09-22
[status] => 9
[identifikator] => ISBN 978-80-01-05882-4
[identifikator_popis] => ISBN - Mechatronika 2016
[riv_dodavka_id] => 2668
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[citace_text] => VLACH, R.; HUZLÍK, R. Thermal Model of High Speed Asynchronous Machine. In Mechatronika 2016. 2016. p. 256-260. ISBN: 978-80-01-05882-4.
[citace_html] => VLACH, R.; HUZLÍK, R. Thermal Model of High Speed Asynchronous Machine. In Mechatronika 2016. 2016. p. 256-260. ISBN: 978-80-01-05882-4.
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[citace_bibtex] => @inproceedings{BUT129602,
author="Radek {Vlach} and Rostislav {Huzlík}",
title="Thermal Model of High Speed Asynchronous Machine",
booktitle="Mechatronika 2016",
year="2016",
pages="256--260",
isbn="978-80-01-05882-4",
url="https://ieeexplore.ieee.org/document/7827827"
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[popis_en] => The thermal analysis of high speed machine is necessary made to check of serviceability. The temperatures of electric machine individual parts influence other aspects of electric machine design. This paper deals with modeling of thermal phenomena of high seed asynchronous machine. The main requirement for this model is easy integration into electromagnetic model. The Computational fluid dynamics (CFD) analysis can be used to determine some boundary condition of thermal model that aren't commonly known for high speed machine.
[klicova_slova_en] => CFD modeling; high speed electric machine; thermal modeling; water cooling
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[title] => Numerical Simulation of the Self-oscillating Vocal Folds in Interaction with Vocal Tract Shaped for Particular Czech Vowels
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