Array
(
[page] => 192
[item_count] => 3612
[items_per_page] => 15
[data] => Array
(
[0] => Array
(
[vysledek_id] => 122770
[vysledek_druh_id] => V_SOUHRN
[ex_vysledek_id] => 118239
[vysledek_rok] => 2015
[nazev] => Měření zubů IGW
[nazev_orig] => Měření zubů IGW
[duvernost_udaju_id] => C
[popis] => Experiemtnální určování charakteristik ozubení jako je například KMbeta faktor
[popis_orig] => Experiemtnální určování charakteristik ozubení jako je například KMbeta faktor
[klicova_slova] => měření, ozubení
[klicova_slova_orig] => měření, ozubení
[url] =>
[oecd_obor_id] => 10307
[odpovedny_utvar_id] => 157
[odpovedny_utvar_nazev] => Ústav mechaniky těles, mechatroniky a biomechaniky
[odpovedny_utvar_zkratka] => ÚMTMB
[nadrazena_soucast_id] => 4
[nadrazena_soucast_zkratka] => FSI
[nadrazena_soucast_nazev] => Fakulta strojního inženýrství
[originalni_jazyk] => cs
[schvalil_id] => 2505
[schvaleno] => 2016-03-08
[vykazovat_riv] => 1
[vykazovat_riv_zmeny] => 1
[slozka_id] =>
[posledni_diagnostika] =>
[vycet_osob] => HOUFEK, L.; KREJČÍ, P.; HOUFEK, M.
[pocet_tvurcu] => 3
[tvurci_ids] =>
[poznamka] =>
[typ_nazev] =>
[kod_doi] =>
[kod_dspace] =>
[rok_vytvoreni] =>
[pocet_zaznamu] =>
[zverejneno] => 1
[prvni_autor] =>
[korespondencni_autor] =>
[posledni_autor] =>
[znamka] =>
[kategorie_nazev] => Výsledky s dopadem do praxe
[druh_nazev] => Souhrnná výzkumná zpráva
[druh_popis] => Souhrnná výzkumná zpráva
[stav] => Schválený
[vysledek_kategorie_id] => PX
[vysledek_system_kategorie_id] => PU
[vysledek_stav_id] => 3
[vlozil] => Informační systém Automat
[upravil] => Informační systém Automat
[ins_uid] => 999999
[upd_uid] => 999999
[ins_ts] => 2025-09-22
[upd_ts] => 2025-09-22
[status] => 9
[identifikator] =>
[identifikator_popis] =>
[riv_dodavka_id] => 1318
[riv_dodavka_oznaceni] => RIV16-MSM-26210___
[riv_dodavka_rok] => 2016
[diagnostika_pocet] => 0
[diagnostika_pocet_chyba] => 0
[diagnostika_pocet_upozorneni] => 0
[diagnostika_pocet_informace] => 0
[citace_text] => HOUFEK, L.; KREJČÍ, P.; HOUFEK, M. Měření zubů IGW. 2015. 36 s.
[citace_html] => HOUFEK, L.; KREJČÍ, P.; HOUFEK, M. Měření zubů IGW. 2015. 36 s.
[citace_rtf] =>
[citace_bibtex] => @misc{BUT122770,
author="Lubomír {Houfek} and Petr {Krejčí} and Martin {Houfek}",
title="Měření zubů IGW",
year="2015",
pages="36",
note="Summary research report"
}
[vykazano] =>
[vykazano_aspon_jednou] =>
[identifikacni_kod] =>
[neautorsky_vysledek] => 0
[if] =>
[if_q] =>
[if_m17_q] =>
[if_m25_q] =>
[if_d] =>
[if_m17_d] =>
[if_m25_d] =>
[if_percentil] =>
[if_m17_percentil] =>
[if_m25_percentil] =>
[ais] =>
[ais_m17_q] =>
[ais_m25_q] =>
[ais_m17_d] =>
[ais_m25_d] =>
[ais_m17_percentil] =>
[ais_m25_percentil] =>
[jci] =>
[jci_q] =>
[jci_percentil] =>
[ef] =>
[scopus_sjr] =>
[scopus_sjr_q] =>
[scopus_sjr_d] =>
[nature_index_group] =>
[incites_times_cited] =>
[incites_open_access] =>
[incites_jnci] =>
[incites_is_int_collab] =>
[incites_is_industry_collab] =>
[incites_esi_hot_paper] =>
[incites_esi_highly_cited_paper] =>
[incites_avg_cnci] =>
[incites_avg_percentile] =>
[scival_citations_count] =>
[scival_fwci] =>
[core_rank] => NA
[oecd_tree_oblast_id] => 10000
[oecd_tree_oblast_nazev] => 1. Natural Sciences
[oecd_tree_obor_id] => 10300
[oecd_tree_obor_nazev] => 1.3 Physical sciences
[oecd_tree_podobor_id] => 10307
[oecd_tree_podobor_nazev] => Acoustics
[poznamka_metriky] =>
[nazev_en] => The measurement of tooth IGW
[popis_en] => Experiemtnální determining the characteristics of the teeth such as KMbeta factor
[klicova_slova_en] => measurement of gear
[vysledek_datum] => 2015-07-01T00:00:00+02:00
)
[1] => Array
(
[vysledek_id] => 122781
[vysledek_druh_id] => V_SOUHRN
[ex_vysledek_id] => 118245
[vysledek_rok] => 2015
[nazev] => Deformačně-napěťová analýza soustavy tampón-tvarový prvek
[nazev_orig] => Deformačně-napěťová analýza soustavy tampón-tvarový prvek
[duvernost_udaju_id] => C
[popis] => Byl vytvořen výpočtový model procesu přimáčknutí tamponu k tvarové ploše. Byly provedeny dvě geometrické varianty: tvar tamponu, který poskytuje dobrý tisk a špatný tisk.
[popis_orig] => Byl vytvořen výpočtový model procesu přimáčknutí tamponu k tvarové ploše. Byly provedeny dvě geometrické varianty: tvar tamponu, který poskytuje dobrý tisk a špatný tisk.
[klicova_slova] => deformačně-napěťová analýza; metoda konečných prvků; tampón; tvarový prvek
[klicova_slova_orig] => deformačně-napěťová analýza; metoda konečných prvků; tampón; tvarový prvek
[url] =>
[oecd_obor_id] => 20500
[odpovedny_utvar_id] => 157
[odpovedny_utvar_nazev] => Ústav mechaniky těles, mechatroniky a biomechaniky
[odpovedny_utvar_zkratka] => ÚMTMB
[nadrazena_soucast_id] => 4
[nadrazena_soucast_zkratka] => FSI
[nadrazena_soucast_nazev] => Fakulta strojního inženýrství
[originalni_jazyk] => cs
[schvalil_id] => 107598
[schvaleno] => 2016-03-08
[vykazovat_riv] => 1
[vykazovat_riv_zmeny] => 1
[slozka_id] =>
[posledni_diagnostika] =>
[vycet_osob] => KUBÍK, P.; PEČ, M.; NÁVRAT, T.; PETRUŠKA, J.
[pocet_tvurcu] => 4
[tvurci_ids] =>
[poznamka] =>
[typ_nazev] =>
[kod_doi] =>
[kod_dspace] =>
[rok_vytvoreni] =>
[pocet_zaznamu] =>
[zverejneno] => 1
[prvni_autor] =>
[korespondencni_autor] =>
[posledni_autor] =>
[znamka] =>
[kategorie_nazev] => Výsledky s dopadem do praxe
[druh_nazev] => Souhrnná výzkumná zpráva
[druh_popis] => Souhrnná výzkumná zpráva
[stav] => Schválený
[vysledek_kategorie_id] => PX
[vysledek_system_kategorie_id] => PU
[vysledek_stav_id] => 3
[vlozil] => Informační systém Automat
[upravil] => Informační systém Automat
[ins_uid] => 999999
[upd_uid] => 999999
[ins_ts] => 2025-09-22
[upd_ts] => 2025-09-22
[status] => 9
[identifikator] =>
[identifikator_popis] =>
[riv_dodavka_id] => 1318
[riv_dodavka_oznaceni] => RIV16-MSM-26210___
[riv_dodavka_rok] => 2016
[diagnostika_pocet] => 0
[diagnostika_pocet_chyba] => 0
[diagnostika_pocet_upozorneni] => 0
[diagnostika_pocet_informace] => 0
[citace_text] => KUBÍK, P.; PEČ, M.; NÁVRAT, T.; PETRUŠKA, J. Deformačně-napěťová analýza soustavy tampón-tvarový prvek. 2015. 35 s.
[citace_html] => KUBÍK, P.; PEČ, M.; NÁVRAT, T.; PETRUŠKA, J. Deformačně-napěťová analýza soustavy tampón-tvarový prvek. 2015. 35 s.
[citace_rtf] =>
[citace_bibtex] => @misc{BUT122781,
author="Petr {Kubík} and Michal {Peč} and Tomáš {Návrat} and Jindřich {Petruška}",
title="Deformačně-napěťová analýza soustavy tampón-tvarový prvek",
year="2015",
pages="35",
note="Summary research report"
}
[vykazano] =>
[vykazano_aspon_jednou] =>
[identifikacni_kod] =>
[neautorsky_vysledek] => 0
[if] =>
[if_q] =>
[if_m17_q] =>
[if_m25_q] =>
[if_d] =>
[if_m17_d] =>
[if_m25_d] =>
[if_percentil] =>
[if_m17_percentil] =>
[if_m25_percentil] =>
[ais] =>
[ais_m17_q] =>
[ais_m25_q] =>
[ais_m17_d] =>
[ais_m25_d] =>
[ais_m17_percentil] =>
[ais_m25_percentil] =>
[jci] =>
[jci_q] =>
[jci_percentil] =>
[ef] =>
[scopus_sjr] =>
[scopus_sjr_q] =>
[scopus_sjr_d] =>
[nature_index_group] =>
[incites_times_cited] =>
[incites_open_access] =>
[incites_jnci] =>
[incites_is_int_collab] =>
[incites_is_industry_collab] =>
[incites_esi_hot_paper] =>
[incites_esi_highly_cited_paper] =>
[incites_avg_cnci] =>
[incites_avg_percentile] =>
[scival_citations_count] =>
[scival_fwci] =>
[core_rank] => NA
[oecd_tree_oblast_id] => 20000
[oecd_tree_oblast_nazev] => 2. Engineering and Technology
[oecd_tree_obor_id] => 20500
[oecd_tree_obor_nazev] => 2.5 Materials engineering
[oecd_tree_podobor_id] =>
[oecd_tree_podobor_nazev] =>
[poznamka_metriky] =>
[nazev_en] => Stress-strain analysis of the sponge-shape element system
[popis_en] => The computational model of upsetting process of sponge to shape element was created. Two geometric variations were made: the shape of the sponge which provides good and bad press.
[klicova_slova_en] => stress-strain analysis; finite element method; sponge; shape element
[vysledek_datum] => 2015-10-01T00:00:00+02:00
)
[2] => Array
(
[vysledek_id] => 122782
[vysledek_druh_id] => V_SOUHRN
[ex_vysledek_id] => 118247
[vysledek_rok] => 2015
[nazev] => Analýza deformací a napětí v TEP kolene – varianta velikost TEP 0 (zatížení tlakem a ohybem)
[nazev_orig] => Analýza deformací a napětí v TEP kolene – varianta velikost TEP 0 (zatížení tlakem a ohybem)
[duvernost_udaju_id] => C
[popis] => V rámci vědecko-výzkumné spolupráce mezi lékaři z Masarykovy univerzity, nemocnicí u Sv. Anny, firmou Beznoska a techniky z VUT je vyvíjena nová totální endoprotéza kolenního kloubu (VUT se zabývá výpočtovým modelováním). V druhé fázi této spolupráce byla provedena deformačně-napěťová analýza totální endoprotézy kolene.
[popis_orig] => V rámci vědecko-výzkumné spolupráce mezi lékaři z Masarykovy univerzity, nemocnicí u Sv. Anny, firmou Beznoska a techniky z VUT je vyvíjena nová totální endoprotéza kolenního kloubu (VUT se zabývá výpočtovým modelováním). V druhé fázi této spolupráce byla provedena deformačně-napěťová analýza totální endoprotézy kolene.
[klicova_slova] => MKP; biomechanika; deformace; napětí
[klicova_slova_orig] => MKP; biomechanika; deformace; napětí
[url] =>
[oecd_obor_id] => 20301
[odpovedny_utvar_id] => 157
[odpovedny_utvar_nazev] => Ústav mechaniky těles, mechatroniky a biomechaniky
[odpovedny_utvar_zkratka] => ÚMTMB
[nadrazena_soucast_id] => 4
[nadrazena_soucast_zkratka] => FSI
[nadrazena_soucast_nazev] => Fakulta strojního inženýrství
[originalni_jazyk] => cs
[schvalil_id] => 107598
[schvaleno] => 2016-03-09
[vykazovat_riv] => 1
[vykazovat_riv_zmeny] => 1
[slozka_id] =>
[posledni_diagnostika] =>
[vycet_osob] => MARCIÁN, P.; JANÍČEK, P.
[pocet_tvurcu] => 2
[tvurci_ids] =>
[poznamka] =>
[typ_nazev] =>
[kod_doi] =>
[kod_dspace] =>
[rok_vytvoreni] =>
[pocet_zaznamu] =>
[zverejneno] => 1
[prvni_autor] =>
[korespondencni_autor] =>
[posledni_autor] =>
[znamka] =>
[kategorie_nazev] => Výsledky s dopadem do praxe
[druh_nazev] => Souhrnná výzkumná zpráva
[druh_popis] => Souhrnná výzkumná zpráva
[stav] => Schválený
[vysledek_kategorie_id] => PX
[vysledek_system_kategorie_id] => PU
[vysledek_stav_id] => 3
[vlozil] => Informační systém Automat
[upravil] => Informační systém Automat
[ins_uid] => 999999
[upd_uid] => 999999
[ins_ts] => 2025-09-22
[upd_ts] => 2025-09-22
[status] => 9
[identifikator] =>
[identifikator_popis] =>
[riv_dodavka_id] => 1318
[riv_dodavka_oznaceni] => RIV16-MSM-26210___
[riv_dodavka_rok] => 2016
[diagnostika_pocet] => 0
[diagnostika_pocet_chyba] => 0
[diagnostika_pocet_upozorneni] => 0
[diagnostika_pocet_informace] => 0
[citace_text] => MARCIÁN, P.; JANÍČEK, P. Analýza deformací a napětí v TEP kolene – varianta velikost TEP 0 (zatížení tlakem a ohybem). 2015. 31 s.
[citace_html] => MARCIÁN, P.; JANÍČEK, P. Analýza deformací a napětí v TEP kolene – varianta velikost TEP 0 (zatížení tlakem a ohybem). 2015. 31 s.
[citace_rtf] =>
[citace_bibtex] => @misc{BUT122782,
author="Petr {Marcián} and Přemysl {Janíček}",
title="Analýza deformací a napětí v TEP kolene – varianta velikost TEP 0 (zatížení tlakem a ohybem)",
year="2015",
pages="31",
note="Summary research report"
}
[vykazano] =>
[vykazano_aspon_jednou] =>
[identifikacni_kod] =>
[neautorsky_vysledek] => 0
[if] =>
[if_q] =>
[if_m17_q] =>
[if_m25_q] =>
[if_d] =>
[if_m17_d] =>
[if_m25_d] =>
[if_percentil] =>
[if_m17_percentil] =>
[if_m25_percentil] =>
[ais] =>
[ais_m17_q] =>
[ais_m25_q] =>
[ais_m17_d] =>
[ais_m25_d] =>
[ais_m17_percentil] =>
[ais_m25_percentil] =>
[jci] =>
[jci_q] =>
[jci_percentil] =>
[ef] =>
[scopus_sjr] =>
[scopus_sjr_q] =>
[scopus_sjr_d] =>
[nature_index_group] =>
[incites_times_cited] =>
[incites_open_access] =>
[incites_jnci] =>
[incites_is_int_collab] =>
[incites_is_industry_collab] =>
[incites_esi_hot_paper] =>
[incites_esi_highly_cited_paper] =>
[incites_avg_cnci] =>
[incites_avg_percentile] =>
[scival_citations_count] =>
[scival_fwci] =>
[core_rank] => NA
[oecd_tree_oblast_id] => 20000
[oecd_tree_oblast_nazev] => 2. Engineering and Technology
[oecd_tree_obor_id] => 20300
[oecd_tree_obor_nazev] => 2.3 Mechanical engineering
[oecd_tree_podobor_id] => 20301
[oecd_tree_podobor_nazev] => Mechanical engineering
[poznamka_metriky] =>
[nazev_en] => Stress and strain analysis of total endoprosthesis of knee joint - size 0
[popis_en] => On the basis of the scientific and research cooperation among BUT and Masaryk University and Saint Anne hospital is developing a new total knee arthroplasty (BUT - computational modeling). In the second phase of this cooperation was performed stress-strain analysis of artificial knee joint.
[klicova_slova_en] => FEM; biomechanics; deformation; stress
[vysledek_datum] => 2015-11-20T00:00:00+01:00
)
[3] => Array
(
[vysledek_id] => 122790
[vysledek_druh_id] => V_SOUHRN
[ex_vysledek_id] => 118244
[vysledek_rok] => 2015
[nazev] => Výpočtové modelování vibrací stroje WHR 13 - Fáze B: Analýza vibrací krytování stroje
[nazev_orig] => Výpočtové modelování vibrací stroje WHR 13 - Fáze B: Analýza vibrací krytování stroje
[duvernost_udaju_id] => C
[popis] => Je popsán postup stanovení vlastních frekvencí a jím odpovídajících vlastních tvarů jedné stěny krytování stroje pomocí metody konečných prvků. Modální analýza je provedena v prostředí ANSYS Workbench v15 a v16.2.
[popis_orig] => Je popsán postup stanovení vlastních frekvencí a jím odpovídajících vlastních tvarů jedné stěny krytování stroje pomocí metody konečných prvků. Modální analýza je provedena v prostředí ANSYS Workbench v15 a v16.2.
[klicova_slova] => výpočtové modelování; analýza vibrací; krytování stroje
[klicova_slova_orig] => výpočtové modelování; analýza vibrací; krytování stroje
[url] =>
[oecd_obor_id] => 20500
[odpovedny_utvar_id] => 157
[odpovedny_utvar_nazev] => Ústav mechaniky těles, mechatroniky a biomechaniky
[odpovedny_utvar_zkratka] => ÚMTMB
[nadrazena_soucast_id] => 4
[nadrazena_soucast_zkratka] => FSI
[nadrazena_soucast_nazev] => Fakulta strojního inženýrství
[originalni_jazyk] => cs
[schvalil_id] => 107598
[schvaleno] => 2016-03-08
[vykazovat_riv] => 1
[vykazovat_riv_zmeny] => 1
[slozka_id] =>
[posledni_diagnostika] =>
[vycet_osob] => NÁVRAT, T.; LOŠÁK, P.
[pocet_tvurcu] => 2
[tvurci_ids] =>
[poznamka] =>
[typ_nazev] =>
[kod_doi] =>
[kod_dspace] =>
[rok_vytvoreni] =>
[pocet_zaznamu] =>
[zverejneno] => 1
[prvni_autor] =>
[korespondencni_autor] =>
[posledni_autor] =>
[znamka] =>
[kategorie_nazev] => Výsledky s dopadem do praxe
[druh_nazev] => Souhrnná výzkumná zpráva
[druh_popis] => Souhrnná výzkumná zpráva
[stav] => Schválený
[vysledek_kategorie_id] => PX
[vysledek_system_kategorie_id] => PU
[vysledek_stav_id] => 3
[vlozil] => Informační systém Automat
[upravil] => Informační systém Automat
[ins_uid] => 999999
[upd_uid] => 999999
[ins_ts] => 2025-09-22
[upd_ts] => 2025-09-22
[status] => 9
[identifikator] =>
[identifikator_popis] =>
[riv_dodavka_id] => 1318
[riv_dodavka_oznaceni] => RIV16-MSM-26210___
[riv_dodavka_rok] => 2016
[diagnostika_pocet] => 0
[diagnostika_pocet_chyba] => 0
[diagnostika_pocet_upozorneni] => 0
[diagnostika_pocet_informace] => 0
[citace_text] => NÁVRAT, T.; LOŠÁK, P. Výpočtové modelování vibrací stroje WHR 13 - Fáze B: Analýza vibrací krytování stroje. 2015. 32 s.
[citace_html] => NÁVRAT, T.; LOŠÁK, P. Výpočtové modelování vibrací stroje WHR 13 - Fáze B: Analýza vibrací krytování stroje. 2015. 32 s.
[citace_rtf] =>
[citace_bibtex] => @misc{BUT122790,
author="Tomáš {Návrat} and Petr {Lošák}",
title="Výpočtové modelování vibrací stroje WHR 13 - Fáze B: Analýza vibrací krytování stroje",
year="2015",
pages="32",
note="Summary research report"
}
[vykazano] =>
[vykazano_aspon_jednou] =>
[identifikacni_kod] =>
[neautorsky_vysledek] => 0
[if] =>
[if_q] =>
[if_m17_q] =>
[if_m25_q] =>
[if_d] =>
[if_m17_d] =>
[if_m25_d] =>
[if_percentil] =>
[if_m17_percentil] =>
[if_m25_percentil] =>
[ais] =>
[ais_m17_q] =>
[ais_m25_q] =>
[ais_m17_d] =>
[ais_m25_d] =>
[ais_m17_percentil] =>
[ais_m25_percentil] =>
[jci] =>
[jci_q] =>
[jci_percentil] =>
[ef] =>
[scopus_sjr] =>
[scopus_sjr_q] =>
[scopus_sjr_d] =>
[nature_index_group] =>
[incites_times_cited] =>
[incites_open_access] =>
[incites_jnci] =>
[incites_is_int_collab] =>
[incites_is_industry_collab] =>
[incites_esi_hot_paper] =>
[incites_esi_highly_cited_paper] =>
[incites_avg_cnci] =>
[incites_avg_percentile] =>
[scival_citations_count] =>
[scival_fwci] =>
[core_rank] => NA
[oecd_tree_oblast_id] => 20000
[oecd_tree_oblast_nazev] => 2. Engineering and Technology
[oecd_tree_obor_id] => 20500
[oecd_tree_obor_nazev] => 2.5 Materials engineering
[oecd_tree_podobor_id] =>
[oecd_tree_podobor_nazev] =>
[poznamka_metriky] =>
[nazev_en] => Computational modeling of vibration of WHR 13 machine - Phase B: Vibrations analysis of machine cover
[popis_en] => There is described the procedure for the determination of the eigen frequencies and the corresponding eigen shapes of one wall cover of the machine by using the finite element method. Modal analysis is performed in the ANSYS Workbench environment v15 and 16.2.
[klicova_slova_en] => computational modeling; vibrations analysis; machine cover
[vysledek_datum] => 2015-12-09T00:00:00+01:00
)
[4] => Array
(
[vysledek_id] => 122881
[vysledek_druh_id] => V_SOUHRN
[ex_vysledek_id] => 118282
[vysledek_rok] => 2015
[nazev] => Úprava zkušebního stavu pro zkoušky náklonem pro nádržové moduly
[nazev_orig] => Úprava zkušebního stavu pro zkoušky náklonem pro nádržové moduly
[duvernost_udaju_id] => C
[popis] => Tato publikace se zabývá úpravou zkušebního stavu pro zkoušky náklonem pro nádržové moduly.
[popis_orig] => Tato publikace se zabývá úpravou zkušebního stavu pro zkoušky náklonem pro nádržové moduly.
[klicova_slova] => nádržové moduly; testování;
[klicova_slova_orig] => nádržové moduly; testování;
[url] =>
[oecd_obor_id] => 10201
[odpovedny_utvar_id] => 157
[odpovedny_utvar_nazev] => Ústav mechaniky těles, mechatroniky a biomechaniky
[odpovedny_utvar_zkratka] => ÚMTMB
[nadrazena_soucast_id] => 4
[nadrazena_soucast_zkratka] => FSI
[nadrazena_soucast_nazev] => Fakulta strojního inženýrství
[originalni_jazyk] => cs
[schvalil_id] => 107598
[schvaleno] => 2016-03-13
[vykazovat_riv] => 1
[vykazovat_riv_zmeny] => 1
[slozka_id] =>
[posledni_diagnostika] =>
[vycet_osob] => GREPL, R.
[pocet_tvurcu] => 1
[tvurci_ids] =>
[poznamka] =>
[typ_nazev] =>
[kod_doi] =>
[kod_dspace] =>
[rok_vytvoreni] =>
[pocet_zaznamu] =>
[zverejneno] => 1
[prvni_autor] =>
[korespondencni_autor] =>
[posledni_autor] =>
[znamka] =>
[kategorie_nazev] => Výsledky s dopadem do praxe
[druh_nazev] => Souhrnná výzkumná zpráva
[druh_popis] => Souhrnná výzkumná zpráva
[stav] => Schválený
[vysledek_kategorie_id] => PX
[vysledek_system_kategorie_id] => PU
[vysledek_stav_id] => 3
[vlozil] => Informační systém Automat
[upravil] => Informační systém Automat
[ins_uid] => 999999
[upd_uid] => 999999
[ins_ts] => 2025-09-22
[upd_ts] => 2025-09-22
[status] => 9
[identifikator] =>
[identifikator_popis] =>
[riv_dodavka_id] => 1318
[riv_dodavka_oznaceni] => RIV16-MSM-26210___
[riv_dodavka_rok] => 2016
[diagnostika_pocet] => 0
[diagnostika_pocet_chyba] => 0
[diagnostika_pocet_upozorneni] => 0
[diagnostika_pocet_informace] => 0
[citace_text] => GREPL, R. Úprava zkušebního stavu pro zkoušky náklonem pro nádržové moduly. 2015. s. 1-3.
[citace_html] => GREPL, R. Úprava zkušebního stavu pro zkoušky náklonem pro nádržové moduly. 2015. s. 1-3.
[citace_rtf] =>
[citace_bibtex] => @misc{BUT122881,
author="Robert {Grepl}",
title="Úprava zkušebního stavu pro zkoušky náklonem pro nádržové moduly",
year="2015",
pages="1--3",
note="Summary research report"
}
[vykazano] =>
[vykazano_aspon_jednou] =>
[identifikacni_kod] =>
[neautorsky_vysledek] => 0
[if] =>
[if_q] =>
[if_m17_q] =>
[if_m25_q] =>
[if_d] =>
[if_m17_d] =>
[if_m25_d] =>
[if_percentil] =>
[if_m17_percentil] =>
[if_m25_percentil] =>
[ais] =>
[ais_m17_q] =>
[ais_m25_q] =>
[ais_m17_d] =>
[ais_m25_d] =>
[ais_m17_percentil] =>
[ais_m25_percentil] =>
[jci] =>
[jci_q] =>
[jci_percentil] =>
[ef] =>
[scopus_sjr] =>
[scopus_sjr_q] =>
[scopus_sjr_d] =>
[nature_index_group] =>
[incites_times_cited] =>
[incites_open_access] =>
[incites_jnci] =>
[incites_is_int_collab] =>
[incites_is_industry_collab] =>
[incites_esi_hot_paper] =>
[incites_esi_highly_cited_paper] =>
[incites_avg_cnci] =>
[incites_avg_percentile] =>
[scival_citations_count] =>
[scival_fwci] =>
[core_rank] => NA
[oecd_tree_oblast_id] => 10000
[oecd_tree_oblast_nazev] => 1. Natural Sciences
[oecd_tree_obor_id] => 10200
[oecd_tree_obor_nazev] => 1.2 Computer and information sciences
[oecd_tree_podobor_id] => 10201
[oecd_tree_podobor_nazev] => Computer sciences, information science, bioinformathics (hardware development to be 2.2, social aspect to be 5.8)
[poznamka_metriky] =>
[nazev_en] => Adjustement of the test bench for inclination testing of fuel tanks
[popis_en] => This publication deals with the modification of the test bench for the testing of the inclination of fuel modules.
[klicova_slova_en] => nádržové modules; testing;
[vysledek_datum] => 2015-12-15T00:00:00+01:00
)
[5] => Array
(
[vysledek_id] => 122882
[vysledek_druh_id] => V_SOUHRN
[ex_vysledek_id] => 118283
[vysledek_rok] => 2015
[nazev] => Řízení zařízení TUMBLER dle specifikace
[nazev_orig] => Řízení zařízení TUMBLER dle specifikace
[duvernost_udaju_id] => C
[popis] => Tato zpráva se zabývá řízením zařízení TUMBLER dle požadované specifikace.
[popis_orig] => Tato zpráva se zabývá řízením zařízení TUMBLER dle požadované specifikace.
[klicova_slova] => TUMBLER;
[klicova_slova_orig] => TUMBLER;
[url] =>
[oecd_obor_id] => 10201
[odpovedny_utvar_id] => 157
[odpovedny_utvar_nazev] => Ústav mechaniky těles, mechatroniky a biomechaniky
[odpovedny_utvar_zkratka] => ÚMTMB
[nadrazena_soucast_id] => 4
[nadrazena_soucast_zkratka] => FSI
[nadrazena_soucast_nazev] => Fakulta strojního inženýrství
[originalni_jazyk] => cs
[schvalil_id] => 107598
[schvaleno] => 2016-03-13
[vykazovat_riv] => 1
[vykazovat_riv_zmeny] => 1
[slozka_id] =>
[posledni_diagnostika] =>
[vycet_osob] => GREPL, R.
[pocet_tvurcu] => 1
[tvurci_ids] =>
[poznamka] =>
[typ_nazev] =>
[kod_doi] =>
[kod_dspace] =>
[rok_vytvoreni] =>
[pocet_zaznamu] =>
[zverejneno] => 1
[prvni_autor] =>
[korespondencni_autor] =>
[posledni_autor] =>
[znamka] =>
[kategorie_nazev] => Výsledky s dopadem do praxe
[druh_nazev] => Souhrnná výzkumná zpráva
[druh_popis] => Souhrnná výzkumná zpráva
[stav] => Schválený
[vysledek_kategorie_id] => PX
[vysledek_system_kategorie_id] => PU
[vysledek_stav_id] => 3
[vlozil] => Informační systém Automat
[upravil] => Informační systém Automat
[ins_uid] => 999999
[upd_uid] => 999999
[ins_ts] => 2025-09-22
[upd_ts] => 2025-09-22
[status] => 9
[identifikator] =>
[identifikator_popis] =>
[riv_dodavka_id] => 1318
[riv_dodavka_oznaceni] => RIV16-MSM-26210___
[riv_dodavka_rok] => 2016
[diagnostika_pocet] => 0
[diagnostika_pocet_chyba] => 0
[diagnostika_pocet_upozorneni] => 0
[diagnostika_pocet_informace] => 0
[citace_text] => GREPL, R. Řízení zařízení TUMBLER dle specifikace. 2015. s. 1-3.
[citace_html] => GREPL, R. Řízení zařízení TUMBLER dle specifikace. 2015. s. 1-3.
[citace_rtf] =>
[citace_bibtex] => @misc{BUT122882,
author="Robert {Grepl}",
title="Řízení zařízení TUMBLER dle specifikace",
year="2015",
pages="1--3",
note="Summary research report"
}
[vykazano] =>
[vykazano_aspon_jednou] =>
[identifikacni_kod] =>
[neautorsky_vysledek] => 0
[if] =>
[if_q] =>
[if_m17_q] =>
[if_m25_q] =>
[if_d] =>
[if_m17_d] =>
[if_m25_d] =>
[if_percentil] =>
[if_m17_percentil] =>
[if_m25_percentil] =>
[ais] =>
[ais_m17_q] =>
[ais_m25_q] =>
[ais_m17_d] =>
[ais_m25_d] =>
[ais_m17_percentil] =>
[ais_m25_percentil] =>
[jci] =>
[jci_q] =>
[jci_percentil] =>
[ef] =>
[scopus_sjr] =>
[scopus_sjr_q] =>
[scopus_sjr_d] =>
[nature_index_group] =>
[incites_times_cited] =>
[incites_open_access] =>
[incites_jnci] =>
[incites_is_int_collab] =>
[incites_is_industry_collab] =>
[incites_esi_hot_paper] =>
[incites_esi_highly_cited_paper] =>
[incites_avg_cnci] =>
[incites_avg_percentile] =>
[scival_citations_count] =>
[scival_fwci] =>
[core_rank] => NA
[oecd_tree_oblast_id] => 10000
[oecd_tree_oblast_nazev] => 1. Natural Sciences
[oecd_tree_obor_id] => 10200
[oecd_tree_obor_nazev] => 1.2 Computer and information sciences
[oecd_tree_podobor_id] => 10201
[oecd_tree_podobor_nazev] => Computer sciences, information science, bioinformathics (hardware development to be 2.2, social aspect to be 5.8)
[poznamka_metriky] =>
[nazev_en] => The control of the TUMBLER device according to specification
[popis_en] => This report deals with the control of the TUMBLER device according to specification
[klicova_slova_en] => TUMBLER;
[vysledek_datum] => 2015-12-10T00:00:00+01:00
)
[6] => Array
(
[vysledek_id] => 122923
[vysledek_druh_id] => CONF
[ex_vysledek_id] => 23651
[vysledek_rok] => 2015
[nazev] => 21st IEEE International Conference on Automation and Computing
[nazev_orig] => 21st IEEE International Conference on Automation and Computing
[duvernost_udaju_id] => S
[popis] => ICAC 2015 GLASGOW, 21st IEEE International Conference on Automation and Computing is starting on 11 September, 2015 and ending on 12 September, 2015.
The Conference is placed at the University of Strathclyde.
ICAC 2015 GLASGOW, 21st IEEE International Conference on Automation and Computing is among one of the most essential event on Automation, Information Technology, Computer, Computer Science, Control Engineering and Information Systems subjects.
21st IEEE International Conference on Automation and Computing is organized annually.
[popis_orig] => ICAC 2015 GLASGOW, 21st IEEE International Conference on Automation and Computing is starting on 11 September, 2015 and ending on 12 September, 2015.
The Conference is placed at the University of Strathclyde.
ICAC 2015 GLASGOW, 21st IEEE International Conference on Automation and Computing is among one of the most essential event on Automation, Information Technology, Computer, Computer Science, Control Engineering and Information Systems subjects.
21st IEEE International Conference on Automation and Computing is organized annually.
[klicova_slova] => Automation; Information Technology; Computer; Computer Science; Control Engineering; Information Systems
[klicova_slova_orig] => Automation; Information Technology; Computer; Computer Science; Control Engineering; Information Systems
[url] => http://csee.essex.ac.uk/ICAC2015/
[oecd_obor_id] => 10201
[odpovedny_utvar_id] => 157
[odpovedny_utvar_nazev] => Ústav mechaniky těles, mechatroniky a biomechaniky
[odpovedny_utvar_zkratka] => ÚMTMB
[nadrazena_soucast_id] => 4
[nadrazena_soucast_zkratka] => FSI
[nadrazena_soucast_nazev] => Fakulta strojního inženýrství
[originalni_jazyk] => en
[schvalil_id] => 133305
[schvaleno] => 2018-02-23
[vykazovat_riv] => 0
[vykazovat_riv_zmeny] => 1
[slozka_id] =>
[posledni_diagnostika] =>
[vycet_osob] => GREPL, R.; SOVA, V.; CHALUPA, J.
[pocet_tvurcu] =>
[tvurci_ids] =>
[poznamka] =>
[typ_nazev] =>
[kod_doi] =>
[kod_dspace] =>
[rok_vytvoreni] =>
[pocet_zaznamu] =>
[zverejneno] => 1
[prvni_autor] =>
[korespondencni_autor] =>
[posledni_autor] =>
[znamka] =>
[kategorie_nazev] => Akce
[druh_nazev] => Uspořádání (zorganizování) konference
[druh_popis] => Uspořádání (zorganizování) konference
[stav] => Schválený
[vysledek_kategorie_id] => EV
[vysledek_system_kategorie_id] => EV
[vysledek_stav_id] => 3
[vlozil] => Informační systém Automat
[upravil] => Informační systém Automat
[ins_uid] => 999999
[upd_uid] => 999999
[ins_ts] => 2025-09-22
[upd_ts] => 2025-09-22
[status] => 9
[identifikator] =>
[identifikator_popis] =>
[riv_dodavka_id] =>
[riv_dodavka_oznaceni] =>
[riv_dodavka_rok] =>
[diagnostika_pocet] => 0
[diagnostika_pocet_chyba] => 0
[diagnostika_pocet_upozorneni] => 0
[diagnostika_pocet_informace] => 0
[citace_text] => GREPL, R.; SOVA, V.; CHALUPA, J.: 21st IEEE International Conference on Automation and Computing. Glasgow (11.09.2015)
[citace_html] => GREPL, R.; SOVA, V.; CHALUPA, J.: 21st IEEE International Conference on Automation and Computing. Glasgow (11.09.2015)
[citace_rtf] =>
[citace_bibtex] => @misc{BUT122923,
title="21st IEEE International Conference on Automation and Computing",
year="2015",
url="http://csee.essex.ac.uk/ICAC2015/",
note="Holding a conference"
}
[vykazano] =>
[vykazano_aspon_jednou] =>
[identifikacni_kod] =>
[neautorsky_vysledek] => 0
[if] =>
[if_q] =>
[if_m17_q] =>
[if_m25_q] =>
[if_d] =>
[if_m17_d] =>
[if_m25_d] =>
[if_percentil] =>
[if_m17_percentil] =>
[if_m25_percentil] =>
[ais] =>
[ais_m17_q] =>
[ais_m25_q] =>
[ais_m17_d] =>
[ais_m25_d] =>
[ais_m17_percentil] =>
[ais_m25_percentil] =>
[jci] =>
[jci_q] =>
[jci_percentil] =>
[ef] =>
[scopus_sjr] =>
[scopus_sjr_q] =>
[scopus_sjr_d] =>
[nature_index_group] =>
[incites_times_cited] =>
[incites_open_access] =>
[incites_jnci] =>
[incites_is_int_collab] =>
[incites_is_industry_collab] =>
[incites_esi_hot_paper] =>
[incites_esi_highly_cited_paper] =>
[incites_avg_cnci] =>
[incites_avg_percentile] =>
[scival_citations_count] =>
[scival_fwci] =>
[core_rank] => NA
[oecd_tree_oblast_id] => 10000
[oecd_tree_oblast_nazev] => 1. Natural Sciences
[oecd_tree_obor_id] => 10200
[oecd_tree_obor_nazev] => 1.2 Computer and information sciences
[oecd_tree_podobor_id] => 10201
[oecd_tree_podobor_nazev] => Computer sciences, information science, bioinformathics (hardware development to be 2.2, social aspect to be 5.8)
[poznamka_metriky] =>
[nazev_en] => 21st IEEE International Conference on Automation and Computing
[popis_en] => ICAC 2015 GLASGOW, 21st IEEE International Conference on Automation and Computing is starting on 11 September, 2015 and ending on 12 September, 2015.
The Conference is placed at the University of Strathclyde.
ICAC 2015 GLASGOW, 21st IEEE International Conference on Automation and Computing is among one of the most essential event on Automation, Information Technology, Computer, Computer Science, Control Engineering and Information Systems subjects.
21st IEEE International Conference on Automation and Computing is organized annually.
[klicova_slova_en] => Automation; Information Technology; Computer; Computer Science; Control Engineering; Information Systems
[vysledek_datum] => 2015-09-11T00:00:00+02:00
)
[7] => Array
(
[vysledek_id] => 122940
[vysledek_druh_id] => V_SOUHRN
[ex_vysledek_id] => 118320
[vysledek_rok] => 2015
[nazev] => Correlated Design Component Test Report
[nazev_orig] => Correlated Design Component Test Report
[duvernost_udaju_id] => C
[popis] => Results of all individual tests performed in work package 8. Non destructive pull test as well as modal test were performed on manufactured component.
[popis_orig] => Results of all individual tests performed in work package 8. Non destructive pull test as well as modal test were performed on manufactured component.
[klicova_slova] => selective laser melting; experimental verification; optical digitization
[klicova_slova_orig] => selective laser melting; experimental verification; optical digitization
[url] =>
[oecd_obor_id] =>
[odpovedny_utvar_id] => 157
[odpovedny_utvar_nazev] => Ústav mechaniky těles, mechatroniky a biomechaniky
[odpovedny_utvar_zkratka] => ÚMTMB
[nadrazena_soucast_id] => 4
[nadrazena_soucast_zkratka] => FSI
[nadrazena_soucast_nazev] => Fakulta strojního inženýrství
[originalni_jazyk] => en
[schvalil_id] => 107598
[schvaleno] => 2016-03-14
[vykazovat_riv] => 1
[vykazovat_riv_zmeny] => 1
[slozka_id] =>
[posledni_diagnostika] =>
[vycet_osob] => KREJČÍ, P.; KOUTNÝ, D.
[pocet_tvurcu] => 2
[tvurci_ids] =>
[poznamka] =>
[typ_nazev] =>
[kod_doi] =>
[kod_dspace] =>
[rok_vytvoreni] =>
[pocet_zaznamu] =>
[zverejneno] => 1
[prvni_autor] =>
[korespondencni_autor] =>
[posledni_autor] =>
[znamka] =>
[kategorie_nazev] => Výsledky s dopadem do praxe
[druh_nazev] => Souhrnná výzkumná zpráva
[druh_popis] => Souhrnná výzkumná zpráva
[stav] => Schválený
[vysledek_kategorie_id] => PX
[vysledek_system_kategorie_id] => PU
[vysledek_stav_id] => 3
[vlozil] => Informační systém Automat
[upravil] => Informační systém Automat
[ins_uid] => 999999
[upd_uid] => 999999
[ins_ts] => 2025-09-22
[upd_ts] => 2025-09-22
[status] => 9
[identifikator] =>
[identifikator_popis] =>
[riv_dodavka_id] => 1318
[riv_dodavka_oznaceni] => RIV16-MSM-26210___
[riv_dodavka_rok] => 2016
[diagnostika_pocet] => 0
[diagnostika_pocet_chyba] => 0
[diagnostika_pocet_upozorneni] => 0
[diagnostika_pocet_informace] => 0
[citace_text] => KREJČÍ, P.; KOUTNÝ, D. Correlated Design Component Test Report. 2015. 155 p.
[citace_html] => KREJČÍ, P.; KOUTNÝ, D. Correlated Design Component Test Report. 2015. 155 p.
[citace_rtf] =>
[citace_bibtex] => @misc{BUT122940,
author="Petr {Krejčí} and Daniel {Koutný}",
title="Correlated Design Component Test Report",
year="2015",
pages="155",
note="Summary research report"
}
[vykazano] =>
[vykazano_aspon_jednou] =>
[identifikacni_kod] =>
[neautorsky_vysledek] => 0
[if] =>
[if_q] =>
[if_m17_q] =>
[if_m25_q] =>
[if_d] =>
[if_m17_d] =>
[if_m25_d] =>
[if_percentil] =>
[if_m17_percentil] =>
[if_m25_percentil] =>
[ais] =>
[ais_m17_q] =>
[ais_m25_q] =>
[ais_m17_d] =>
[ais_m25_d] =>
[ais_m17_percentil] =>
[ais_m25_percentil] =>
[jci] =>
[jci_q] =>
[jci_percentil] =>
[ef] =>
[scopus_sjr] =>
[scopus_sjr_q] =>
[scopus_sjr_d] =>
[nature_index_group] =>
[incites_times_cited] =>
[incites_open_access] =>
[incites_jnci] =>
[incites_is_int_collab] =>
[incites_is_industry_collab] =>
[incites_esi_hot_paper] =>
[incites_esi_highly_cited_paper] =>
[incites_avg_cnci] =>
[incites_avg_percentile] =>
[scival_citations_count] =>
[scival_fwci] =>
[core_rank] => NA
[oecd_tree_oblast_id] =>
[oecd_tree_oblast_nazev] =>
[oecd_tree_obor_id] =>
[oecd_tree_obor_nazev] =>
[oecd_tree_podobor_id] =>
[oecd_tree_podobor_nazev] =>
[poznamka_metriky] =>
[nazev_en] => Correlated Design Component Test Report
[popis_en] => Results of all individual tests performed in work package 8. Non destructive pull test as well as modal test were performed on manufactured component.
[klicova_slova_en] => selective laser melting; experimental verification; optical digitization
[vysledek_datum] => 2015-05-30T00:00:00+02:00
)
[8] => Array
(
[vysledek_id] => 122955
[vysledek_druh_id] => ARTWOS
[ex_vysledek_id] => 118338
[vysledek_rok] => 2016
[nazev] => Poisson's ratio of arterial wall – inconsistency of constitutive models with experimental data
[nazev_orig] => Poisson's ratio of arterial wall – inconsistency of constitutive models with experimental data
[duvernost_udaju_id] => S
[popis] => Poisson's ratio of fibrous soft tissues is analyzed in this paper on the basis of constitutive models and experimental data. Three different up-to-date constitutive models accounting for the dispersion of fibre orientations are analyzed. Their predictions of the anisotropic Poisson's ratios are investigated under finite strain conditions together with the effects of specific orientation distribution functions and of other parameters. The applied constitutive models predict the tendency to lower (or even negative) out-of-plane Poisson's ratio. New experimental data of porcine arterial layer under uniaxial tensile conditions in orthogonal directions are also presented and compared with the theoretical predictions and other literature data. The results point out the typical features of recent constitutive models with fibres concentrated in circumferential-axial plane of arterial layers and their potential inconsistence with some experimental data. The volumetric (in)compressibility of arterial tissues is also discussed as an eventual and significant factor influencing this inconsistency.
[popis_orig] => Poisson's ratio of fibrous soft tissues is analyzed in this paper on the basis of constitutive models and experimental data. Three different up-to-date constitutive models accounting for the dispersion of fibre orientations are analyzed. Their predictions of the anisotropic Poisson's ratios are investigated under finite strain conditions together with the effects of specific orientation distribution functions and of other parameters. The applied constitutive models predict the tendency to lower (or even negative) out-of-plane Poisson's ratio. New experimental data of porcine arterial layer under uniaxial tensile conditions in orthogonal directions are also presented and compared with the theoretical predictions and other literature data. The results point out the typical features of recent constitutive models with fibres concentrated in circumferential-axial plane of arterial layers and their potential inconsistence with some experimental data. The volumetric (in)compressibility of arterial tissues is also discussed as an eventual and significant factor influencing this inconsistency.
[klicova_slova] => Arterial wall mechanics; Poisson's ratio; Compressibility; Anisotropy; Constitutive modelling; Hyperfit software
[klicova_slova_orig] => Arterial wall mechanics; Poisson's ratio; Compressibility; Anisotropy; Constitutive modelling; Hyperfit software
[url] => http://ac.els-cdn.com/S1751616115003665/1-s2.0-S1751616115003665-main.pdf?_tid=ae6836b8-ea96-11e5-ae53-00000aab0f01&acdnat=1458037039_b22803afde805ea19c8e60190aed0d57
[oecd_obor_id] => 10610
[odpovedny_utvar_id] => 157
[odpovedny_utvar_nazev] => Ústav mechaniky těles, mechatroniky a biomechaniky
[odpovedny_utvar_zkratka] => ÚMTMB
[nadrazena_soucast_id] => 4
[nadrazena_soucast_zkratka] => FSI
[nadrazena_soucast_nazev] => Fakulta strojního inženýrství
[originalni_jazyk] => en
[schvalil_id] => 999999
[schvaleno] => 2019-08-08
[vykazovat_riv] => 1
[vykazovat_riv_zmeny] => 1
[slozka_id] => 94756
[posledni_diagnostika] =>
[vycet_osob] => SKÁCEL, P.; BURŠA, J.
[pocet_tvurcu] => 2
[tvurci_ids] =>
[poznamka] =>
[typ_nazev] =>
[kod_doi] => 10.1016/j.jmbbm.2015.09.029
[kod_dspace] =>
[rok_vytvoreni] =>
[pocet_zaznamu] =>
[zverejneno] => 1
[prvni_autor] =>
[korespondencni_autor] =>
[posledni_autor] =>
[znamka] => 2
[kategorie_nazev] => Publikační výsledky
[druh_nazev] => Článek WoS
[druh_popis] => Článek v odborném periodiku je obsažen v databázi Web of Science společností Thomson Reuters s příznakem „Article“, „Review“ nebo „Letter“
[stav] => Schválený
[vysledek_kategorie_id] => PV
[vysledek_system_kategorie_id] => PU
[vysledek_stav_id] => 3
[vlozil] => Informační systém Automat
[upravil] => Informační systém Automat
[ins_uid] => 999999
[upd_uid] => 999999
[ins_ts] => 2025-09-22
[upd_ts] => 2025-09-22
[status] => 9
[identifikator] => ISSN 1751-6161
[identifikator_popis] => ISSN - Journal of the Mechanical Behavior of Biomedical Materials (NL)
[riv_dodavka_id] => 1513
[riv_dodavka_oznaceni] => RIV18-TA0-26510___
[riv_dodavka_rok] => 2017
[diagnostika_pocet] => 0
[diagnostika_pocet_chyba] => 0
[diagnostika_pocet_upozorneni] => 0
[diagnostika_pocet_informace] => 0
[citace_text] => SKÁCEL, P.; BURŠA, J. Poisson's ratio of arterial wall – inconsistency of constitutive models with experimental data. Journal of the Mechanical Behavior of Biomedical Materials, 2016, vol. 54, no. 1, p. 316-327. ISSN: 1751-6161.
[citace_html] => SKÁCEL, P.; BURŠA, J. Poisson's ratio of arterial wall – inconsistency of constitutive models with experimental data. Journal of the Mechanical Behavior of Biomedical Materials, 2016, vol. 54, no. 1, p. 316-327. ISSN: 1751-6161.
[citace_rtf] =>
[citace_bibtex] => @article{BUT122955,
author="Pavel {Skácel} and Jiří {Burša}",
title="Poisson's ratio of arterial wall – inconsistency of constitutive models with experimental data",
journal="Journal of the Mechanical Behavior of Biomedical Materials",
year="2016",
volume="54",
number="1",
pages="316--327",
doi="10.1016/j.jmbbm.2015.09.029",
issn="1751-6161",
url="http://ac.els-cdn.com/S1751616115003665/1-s2.0-S1751616115003665-main.pdf?_tid=ae6836b8-ea96-11e5-ae53-00000aab0f01&acdnat=1458037039_b22803afde805ea19c8e60190aed0d57"
}
[vykazano] =>
[vykazano_aspon_jednou] =>
[identifikacni_kod] =>
[neautorsky_vysledek] => 0
[if] => 3.11
[if_q] => 2
[if_m17_q] => 2
[if_m25_q] => 2
[if_d] =>
[if_m17_d] => 3
[if_m25_d] => 3
[if_percentil] => 74.675
[if_m17_percentil] => 71.138
[if_m25_percentil] => 71.138
[ais] => 0.866
[ais_m17_q] => 2
[ais_m25_q] => 2
[ais_m17_d] => 3
[ais_m25_d] => 3
[ais_m17_percentil] => 70.661
[ais_m25_percentil] => 70.661
[jci] =>
[jci_q] =>
[jci_percentil] =>
[ef] =>
[scopus_sjr] =>
[scopus_sjr_q] =>
[scopus_sjr_d] =>
[nature_index_group] =>
[incites_times_cited] =>
[incites_open_access] =>
[incites_jnci] =>
[incites_is_int_collab] =>
[incites_is_industry_collab] =>
[incites_esi_hot_paper] =>
[incites_esi_highly_cited_paper] =>
[incites_avg_cnci] =>
[incites_avg_percentile] =>
[scival_citations_count] =>
[scival_fwci] =>
[core_rank] => NA
[oecd_tree_oblast_id] => 10000
[oecd_tree_oblast_nazev] => 1. Natural Sciences
[oecd_tree_obor_id] => 10600
[oecd_tree_obor_nazev] => 1.6 Biological sciences
[oecd_tree_podobor_id] => 10610
[oecd_tree_podobor_nazev] => Biophysics
[poznamka_metriky] =>
[nazev_en] => Poisson's ratio of arterial wall – inconsistency of constitutive models with experimental data
[popis_en] => Poisson's ratio of fibrous soft tissues is analyzed in this paper on the basis of constitutive models and experimental data. Three different up-to-date constitutive models accounting for the dispersion of fibre orientations are analyzed. Their predictions of the anisotropic Poisson's ratios are investigated under finite strain conditions together with the effects of specific orientation distribution functions and of other parameters. The applied constitutive models predict the tendency to lower (or even negative) out-of-plane Poisson's ratio. New experimental data of porcine arterial layer under uniaxial tensile conditions in orthogonal directions are also presented and compared with the theoretical predictions and other literature data. The results point out the typical features of recent constitutive models with fibres concentrated in circumferential-axial plane of arterial layers and their potential inconsistence with some experimental data. The volumetric (in)compressibility of arterial tissues is also discussed as an eventual and significant factor influencing this inconsistency.
[klicova_slova_en] => Arterial wall mechanics; Poisson's ratio; Compressibility; Anisotropy; Constitutive modelling; Hyperfit software
[vysledek_datum] => 2016-02-15T00:00:00+01:00
)
[9] => Array
(
[vysledek_id] => 124709
[vysledek_druh_id] => ARTWOS
[ex_vysledek_id] => 119071
[vysledek_rok] => 2016
[nazev] => A failure scenario of ceramic laminates with strong interfaces
[nazev_orig] => A failure scenario of ceramic laminates with strong interfaces
[duvernost_udaju_id] => S
[popis] => Over the last years many researchers have put a lot of effort into designing layered
structures combining different materials in order to improve low fracture toughness and
mechanical reliability of ceramics. It has been proven that an effective way is to create
layered ceramics with strongly bonded interfaces. Significant internal residual stresses
are developed within the composite layers after the cooling process from the sintering
temperature, due to the different coefficients of thermal expansion of individual composite
constituents. Residual stresses can significantly change the crack behaviour. Suitable
choice of material of layers and ratio between layer thicknesses can lead to higher value
of the so-called apparent fracture toughness, i.e. higher resistance of the ceramic
laminate to the crack propagation.
The paper deals with a description of the specific crack behaviour in the layered
alumina–zirconia ceramics. Attention is devoted to the differences in the stress field
description in the vicinity of the crack front. Two-dimensional and three-dimensional
numerical models are developed for this purpose. The main aim is to clarify crack behaviour
in the compressive layer and provide computational tools for estimation of crack
behaviour in the field of strong residual stresses. The crack propagation is investigated
on the basis of linear elastic fracture mechanics. Fracture parameters are computed numerically
and by routines of authors. The sharp change of the crack propagation direction is
estimated using the Sih’s criterion based on the strain energy density factor, and conditions
for crack bifurcation are determined. Estimated crack behaviour is qualitatively in a good
agreement with experimental observations.
[popis_orig] => Over the last years many researchers have put a lot of effort into designing layered
structures combining different materials in order to improve low fracture toughness and
mechanical reliability of ceramics. It has been proven that an effective way is to create
layered ceramics with strongly bonded interfaces. Significant internal residual stresses
are developed within the composite layers after the cooling process from the sintering
temperature, due to the different coefficients of thermal expansion of individual composite
constituents. Residual stresses can significantly change the crack behaviour. Suitable
choice of material of layers and ratio between layer thicknesses can lead to higher value
of the so-called apparent fracture toughness, i.e. higher resistance of the ceramic
laminate to the crack propagation.
The paper deals with a description of the specific crack behaviour in the layered
alumina–zirconia ceramics. Attention is devoted to the differences in the stress field
description in the vicinity of the crack front. Two-dimensional and three-dimensional
numerical models are developed for this purpose. The main aim is to clarify crack behaviour
in the compressive layer and provide computational tools for estimation of crack
behaviour in the field of strong residual stresses. The crack propagation is investigated
on the basis of linear elastic fracture mechanics. Fracture parameters are computed numerically
and by routines of authors. The sharp change of the crack propagation direction is
estimated using the Sih’s criterion based on the strain energy density factor, and conditions
for crack bifurcation are determined. Estimated crack behaviour is qualitatively in a good
agreement with experimental observations.
[klicova_slova] => Damage mechanism, ceramic laminates, residual stresses, strain energy density factor, crack propagation direction.
[klicova_slova_orig] => Damage mechanism, ceramic laminates, residual stresses, strain energy density factor, crack propagation direction.
[url] => http://www.sciencedirect.com/science/article/pii/S0013794416301783
[oecd_obor_id] => 20306
[odpovedny_utvar_id] => 157
[odpovedny_utvar_nazev] => Ústav mechaniky těles, mechatroniky a biomechaniky
[odpovedny_utvar_zkratka] => ÚMTMB
[nadrazena_soucast_id] => 4
[nadrazena_soucast_zkratka] => FSI
[nadrazena_soucast_nazev] => Fakulta strojního inženýrství
[originalni_jazyk] => en
[schvalil_id] => 999999
[schvaleno] => 2019-08-08
[vykazovat_riv] => 1
[vykazovat_riv_zmeny] => 1
[slozka_id] =>
[posledni_diagnostika] =>
[vycet_osob] => NÁHLÍK, L.; ŠTEGNEROVÁ, K.; MÁŠA, B.; HUTAŘ, P.
[pocet_tvurcu] => 4
[tvurci_ids] =>
[poznamka] =>
[typ_nazev] =>
[kod_doi] => 10.1016/j.engfracmech.2016.04.022
[kod_dspace] =>
[rok_vytvoreni] =>
[pocet_zaznamu] =>
[zverejneno] => 1
[prvni_autor] =>
[korespondencni_autor] =>
[posledni_autor] =>
[znamka] =>
[kategorie_nazev] => Publikační výsledky
[druh_nazev] => Článek WoS
[druh_popis] => Článek v odborném periodiku je obsažen v databázi Web of Science společností Thomson Reuters s příznakem „Article“, „Review“ nebo „Letter“
[stav] => Schválený
[vysledek_kategorie_id] => PV
[vysledek_system_kategorie_id] => PU
[vysledek_stav_id] => 3
[vlozil] => Informační systém Automat
[upravil] => Informační systém Automat
[ins_uid] => 999999
[upd_uid] => 999999
[ins_ts] => 2025-09-22
[upd_ts] => 2025-09-22
[status] => 9
[identifikator] => ISSN 0013-7944
[identifikator_popis] => ISSN - ENGINEERING FRACTURE MECHANICS (GB)
[riv_dodavka_id] => 1530
[riv_dodavka_oznaceni] => RIV18-TA0-26510___
[riv_dodavka_rok] => 2017
[diagnostika_pocet] => 0
[diagnostika_pocet_chyba] => 0
[diagnostika_pocet_upozorneni] => 0
[diagnostika_pocet_informace] => 0
[citace_text] => NÁHLÍK, L.; ŠTEGNEROVÁ, K.; MÁŠA, B.; HUTAŘ, P. A failure scenario of ceramic laminates with strong interfaces. ENGINEERING FRACTURE MECHANICS, 2016, no. 167, p. 56-67. ISSN: 0013-7944.
[citace_html] => NÁHLÍK, L.; ŠTEGNEROVÁ, K.; MÁŠA, B.; HUTAŘ, P. A failure scenario of ceramic laminates with strong interfaces. ENGINEERING FRACTURE MECHANICS, 2016, no. 167, p. 56-67. ISSN: 0013-7944.
[citace_rtf] =>
[citace_bibtex] => @article{BUT124709,
author="Luboš {Náhlík} and Kateřina {Štegnerová} and Bohuslav {Máša} and Pavel {Hutař}",
title="A failure scenario of ceramic laminates with strong interfaces",
journal="ENGINEERING FRACTURE MECHANICS",
year="2016",
number="167",
pages="56--67",
doi="10.1016/j.engfracmech.2016.04.022",
issn="0013-7944",
url="http://www.sciencedirect.com/science/article/pii/S0013794416301783"
}
[vykazano] =>
[vykazano_aspon_jednou] =>
[identifikacni_kod] =>
[neautorsky_vysledek] => 0
[if] => 2.151
[if_q] => 2
[if_m17_q] => 1
[if_m25_q] => 1
[if_d] =>
[if_m17_d] => 3
[if_m25_d] => 3
[if_percentil] => 69.549
[if_m17_percentil] => 75.323
[if_m25_percentil] => 75.402
[ais] => 0.717
[ais_m17_q] => 1
[ais_m25_q] => 1
[ais_m17_d] => 3
[ais_m25_d] => 3
[ais_m17_percentil] => 79.902
[ais_m25_percentil] => 79.967
[jci] =>
[jci_q] =>
[jci_percentil] =>
[ef] =>
[scopus_sjr] =>
[scopus_sjr_q] =>
[scopus_sjr_d] =>
[nature_index_group] =>
[incites_times_cited] =>
[incites_open_access] =>
[incites_jnci] =>
[incites_is_int_collab] =>
[incites_is_industry_collab] =>
[incites_esi_hot_paper] =>
[incites_esi_highly_cited_paper] =>
[incites_avg_cnci] =>
[incites_avg_percentile] =>
[scival_citations_count] =>
[scival_fwci] =>
[core_rank] => NA
[oecd_tree_oblast_id] => 20000
[oecd_tree_oblast_nazev] => 2. Engineering and Technology
[oecd_tree_obor_id] => 20300
[oecd_tree_obor_nazev] => 2.3 Mechanical engineering
[oecd_tree_podobor_id] => 20306
[oecd_tree_podobor_nazev] => Audio engineering, reliability analysis
[poznamka_metriky] =>
[nazev_en] => A failure scenario of ceramic laminates with strong interfaces
[popis_en] => Over the last years many researchers have put a lot of effort into designing layered
structures combining different materials in order to improve low fracture toughness and
mechanical reliability of ceramics. It has been proven that an effective way is to create
layered ceramics with strongly bonded interfaces. Significant internal residual stresses
are developed within the composite layers after the cooling process from the sintering
temperature, due to the different coefficients of thermal expansion of individual composite
constituents. Residual stresses can significantly change the crack behaviour. Suitable
choice of material of layers and ratio between layer thicknesses can lead to higher value
of the so-called apparent fracture toughness, i.e. higher resistance of the ceramic
laminate to the crack propagation.
The paper deals with a description of the specific crack behaviour in the layered
alumina–zirconia ceramics. Attention is devoted to the differences in the stress field
description in the vicinity of the crack front. Two-dimensional and three-dimensional
numerical models are developed for this purpose. The main aim is to clarify crack behaviour
in the compressive layer and provide computational tools for estimation of crack
behaviour in the field of strong residual stresses. The crack propagation is investigated
on the basis of linear elastic fracture mechanics. Fracture parameters are computed numerically
and by routines of authors. The sharp change of the crack propagation direction is
estimated using the Sih’s criterion based on the strain energy density factor, and conditions
for crack bifurcation are determined. Estimated crack behaviour is qualitatively in a good
agreement with experimental observations.
[klicova_slova_en] => Damage mechanism, ceramic laminates, residual stresses, strain energy density factor, crack propagation direction.
[vysledek_datum] => 2016-11-08T00:00:00+01:00
)
[10] => Array
(
[vysledek_id] => 126290
[vysledek_druh_id] => CONPA
[ex_vysledek_id] => 119427
[vysledek_rok] => 2016
[nazev] => Numerical Simulation of the Effect of Stiffness of Lamina Propria on the Self-sustained Oscillation of the Vocal Folds
[nazev_orig] => Numerical Simulation of the Effect of Stiffness of Lamina Propria on the Self-sustained Oscillation of the Vocal Folds
[duvernost_udaju_id] => S
[popis] => A two-dimensional (2D) finite element (FE) model of the fluid-structure-acoustic interaction during self- sustained oscillation of the human vocal folds (VF) is presented in this paper. The aim is to analyze the effect of stiffness of lamina propria on VF vibrations. Such stiffness change can be caused by some VF pathologies. The developed FE model consists of the FE models of the VF, trachea and a simplified human vocal tract. The vocal tract model shaped for simulation of phonation of Czech vowel [a:] was created by converting data from the magnetic resonance images (MRI). The developed FE model includes VF contact, large deformations of the VF tissue, fluid-structure interaction (FSI), moving boundary of the fluid mesh (Arbitrary Lagrangian-Eulerian (ALE) approach), airflow separation during the glottis closure and solution of unsteady viscous compressible airflow described by the Navier-Stokes equations. The numerical simulations showed that higher values of lamina propria Young's modulus (stiffer lamina propria) result in a decrease of the maximum glottis opening. Stiffer lamina propria also requires the use of higher subglottal pressure to initiate self-sustained vibration of the VF.
[popis_orig] => A two-dimensional (2D) finite element (FE) model of the fluid-structure-acoustic interaction during self- sustained oscillation of the human vocal folds (VF) is presented in this paper. The aim is to analyze the effect of stiffness of lamina propria on VF vibrations. Such stiffness change can be caused by some VF pathologies. The developed FE model consists of the FE models of the VF, trachea and a simplified human vocal tract. The vocal tract model shaped for simulation of phonation of Czech vowel [a:] was created by converting data from the magnetic resonance images (MRI). The developed FE model includes VF contact, large deformations of the VF tissue, fluid-structure interaction (FSI), moving boundary of the fluid mesh (Arbitrary Lagrangian-Eulerian (ALE) approach), airflow separation during the glottis closure and solution of unsteady viscous compressible airflow described by the Navier-Stokes equations. The numerical simulations showed that higher values of lamina propria Young's modulus (stiffer lamina propria) result in a decrease of the maximum glottis opening. Stiffer lamina propria also requires the use of higher subglottal pressure to initiate self-sustained vibration of the VF.
[klicova_slova] => Simulation of phonation, Fluid-structure-acoustic interaction, Finite element method, Biomechanics of voice
[klicova_slova_orig] => Simulation of phonation, Fluid-structure-acoustic interaction, Finite element method, Biomechanics of voice
[url] =>
[oecd_obor_id] => 10307
[odpovedny_utvar_id] => 157
[odpovedny_utvar_nazev] => Ústav mechaniky těles, mechatroniky a biomechaniky
[odpovedny_utvar_zkratka] => ÚMTMB
[nadrazena_soucast_id] => 4
[nadrazena_soucast_zkratka] => FSI
[nadrazena_soucast_nazev] => Fakulta strojního inženýrství
[originalni_jazyk] => en
[schvalil_id] => 3157
[schvaleno] => 2016-08-22
[vykazovat_riv] => 1
[vykazovat_riv_zmeny] => 1
[slozka_id] =>
[posledni_diagnostika] =>
[vycet_osob] => HÁJEK, P.; ŠVANCARA, P.; HORÁČEK, J.; ŠVEC, J.
[pocet_tvurcu] => 4
[tvurci_ids] =>
[poznamka] =>
[typ_nazev] =>
[kod_doi] =>
[kod_dspace] =>
[rok_vytvoreni] =>
[pocet_zaznamu] =>
[zverejneno] => 1
[prvni_autor] =>
[korespondencni_autor] =>
[posledni_autor] =>
[znamka] =>
[kategorie_nazev] => Publikační výsledky
[druh_nazev] => Stať ve sborníku v databázi WoS či Scopus
[druh_popis] => Stať ve sborníku v databázi WoS či Scopus
[stav] => Schválený
[vysledek_kategorie_id] => PV
[vysledek_system_kategorie_id] => PU
[vysledek_stav_id] => 3
[vlozil] => Informační systém Automat
[upravil] => Informační systém Automat
[ins_uid] => 999999
[upd_uid] => 999999
[ins_ts] => 2025-09-22
[upd_ts] => 2025-09-22
[status] => 9
[identifikator] => ISBN 978-80-87012-59-8 ISSN 1805-8248
[identifikator_popis] => ISBN - Engineering Mechanics 2016 ISSN - Engineering Mechanics (CZ)
[riv_dodavka_id] => 1530
[riv_dodavka_oznaceni] => RIV18-TA0-26510___
[riv_dodavka_rok] => 2017
[diagnostika_pocet] => 0
[diagnostika_pocet_chyba] => 0
[diagnostika_pocet_upozorneni] => 0
[diagnostika_pocet_informace] => 0
[citace_text] => HÁJEK, P.; ŠVANCARA, P.; HORÁČEK, J.; ŠVEC, J. Numerical Simulation of the Effect of Stiffness of Lamina Propria on the Self-sustained Oscillation of the Vocal Folds. In Engineering Mechanics 2016. Engineering Mechanics. Svratka: Institute of Thermomechanics, Academy of Sciences of the Czech Republic, v. v. i., Prague, 2016. no. 22, p. 182-185. ISBN: 978-80-87012-59-8. ISSN: 1805-8248.
[citace_html] => HÁJEK, P.; ŠVANCARA, P.; HORÁČEK, J.; ŠVEC, J. Numerical Simulation of the Effect of Stiffness of Lamina Propria on the Self-sustained Oscillation of the Vocal Folds. In Engineering Mechanics 2016. Engineering Mechanics. Svratka: Institute of Thermomechanics, Academy of Sciences of the Czech Republic, v. v. i., Prague, 2016. no. 22, p. 182-185. ISBN: 978-80-87012-59-8. ISSN: 1805-8248.
[citace_rtf] =>
[citace_bibtex] => @inproceedings{BUT126290,
author="Petr {Hájek} and Pavel {Švancara} and Jaromír {Horáček} and Jan G. {Švec}",
title="Numerical Simulation of the Effect of Stiffness of Lamina Propria on the Self-sustained Oscillation of the Vocal Folds",
booktitle="Engineering Mechanics 2016",
year="2016",
journal="Engineering Mechanics",
number="22",
pages="182--185",
publisher="Institute of Thermomechanics, Academy of Sciences of the Czech Republic, v. v. i., Prague",
address="Svratka",
isbn="978-80-87012-59-8",
issn="1805-8248"
}
[vykazano] =>
[vykazano_aspon_jednou] =>
[identifikacni_kod] =>
[neautorsky_vysledek] => 0
[if] =>
[if_q] =>
[if_m17_q] =>
[if_m25_q] =>
[if_d] =>
[if_m17_d] =>
[if_m25_d] =>
[if_percentil] =>
[if_m17_percentil] =>
[if_m25_percentil] =>
[ais] =>
[ais_m17_q] =>
[ais_m25_q] =>
[ais_m17_d] =>
[ais_m25_d] =>
[ais_m17_percentil] =>
[ais_m25_percentil] =>
[jci] =>
[jci_q] =>
[jci_percentil] =>
[ef] =>
[scopus_sjr] =>
[scopus_sjr_q] =>
[scopus_sjr_d] =>
[nature_index_group] =>
[incites_times_cited] =>
[incites_open_access] =>
[incites_jnci] =>
[incites_is_int_collab] =>
[incites_is_industry_collab] =>
[incites_esi_hot_paper] =>
[incites_esi_highly_cited_paper] =>
[incites_avg_cnci] =>
[incites_avg_percentile] =>
[scival_citations_count] =>
[scival_fwci] =>
[core_rank] => NA
[oecd_tree_oblast_id] => 10000
[oecd_tree_oblast_nazev] => 1. Natural Sciences
[oecd_tree_obor_id] => 10300
[oecd_tree_obor_nazev] => 1.3 Physical sciences
[oecd_tree_podobor_id] => 10307
[oecd_tree_podobor_nazev] => Acoustics
[poznamka_metriky] =>
[nazev_en] => Numerical Simulation of the Effect of Stiffness of Lamina Propria on the Self-sustained Oscillation of the Vocal Folds
[popis_en] => A two-dimensional (2D) finite element (FE) model of the fluid-structure-acoustic interaction during self- sustained oscillation of the human vocal folds (VF) is presented in this paper. The aim is to analyze the effect of stiffness of lamina propria on VF vibrations. Such stiffness change can be caused by some VF pathologies. The developed FE model consists of the FE models of the VF, trachea and a simplified human vocal tract. The vocal tract model shaped for simulation of phonation of Czech vowel [a:] was created by converting data from the magnetic resonance images (MRI). The developed FE model includes VF contact, large deformations of the VF tissue, fluid-structure interaction (FSI), moving boundary of the fluid mesh (Arbitrary Lagrangian-Eulerian (ALE) approach), airflow separation during the glottis closure and solution of unsteady viscous compressible airflow described by the Navier-Stokes equations. The numerical simulations showed that higher values of lamina propria Young's modulus (stiffer lamina propria) result in a decrease of the maximum glottis opening. Stiffer lamina propria also requires the use of higher subglottal pressure to initiate self-sustained vibration of the VF.
[klicova_slova_en] => Simulation of phonation, Fluid-structure-acoustic interaction, Finite element method, Biomechanics of voice
[vysledek_datum] => 2016-05-12T00:00:00+02:00
)
[11] => Array
(
[vysledek_id] => 127087
[vysledek_druh_id] => ARTWOS
[ex_vysledek_id] => 119800
[vysledek_rok] => 2016
[nazev] => Residual stress in polyethylene pipes
[nazev_orig] => Residual stress in polyethylene pipes
[duvernost_udaju_id] => S
[popis] => This paper deals with residual stress in polyethylene (PE) pipes as an important factor that influences their lifetime. Residual hoop stress distribution in a PE pipe was determined using a methodology previously carried out by the authors on polypropylene pipes. Axial residual stress magnitude was determined by comparison of experimental data and finite element modelling. Based on the obtained results, a new simplified methodology for determining the residual hoop stress is proposed. The method needs only one circular specimen made of pipe, but, unlike older methods, provides a more precise estimation of residual hoop stress distribution taking into account its exponential shape. Some older results from literature are recalculated using this method and residual hoop stress of various PE pipe grades and dimensions are then compared. To provide an idea of residual hoop stress influence on lifetime of a pipe, a lifetime estimation is carried out for the examined pipe.
[popis_orig] => This paper deals with residual stress in polyethylene (PE) pipes as an important factor that influences their lifetime. Residual hoop stress distribution in a PE pipe was determined using a methodology previously carried out by the authors on polypropylene pipes. Axial residual stress magnitude was determined by comparison of experimental data and finite element modelling. Based on the obtained results, a new simplified methodology for determining the residual hoop stress is proposed. The method needs only one circular specimen made of pipe, but, unlike older methods, provides a more precise estimation of residual hoop stress distribution taking into account its exponential shape. Some older results from literature are recalculated using this method and residual hoop stress of various PE pipe grades and dimensions are then compared. To provide an idea of residual hoop stress influence on lifetime of a pipe, a lifetime estimation is carried out for the examined pipe.
[klicova_slova] => polyethylene pipe; residual stress; riing slitting method; lifetime estimation
[klicova_slova_orig] => polyethylene pipe; residual stress; riing slitting method; lifetime estimation
[url] => https://www.sciencedirect.com/science/article/pii/S0142941816304512
[oecd_obor_id] => 20306
[odpovedny_utvar_id] => 157
[odpovedny_utvar_nazev] => Ústav mechaniky těles, mechatroniky a biomechaniky
[odpovedny_utvar_zkratka] => ÚMTMB
[nadrazena_soucast_id] => 4
[nadrazena_soucast_zkratka] => FSI
[nadrazena_soucast_nazev] => Fakulta strojního inženýrství
[originalni_jazyk] => en
[schvalil_id] => 51108
[schvaleno] => 2022-05-10
[vykazovat_riv] => 1
[vykazovat_riv_zmeny] => 1
[slozka_id] =>
[posledni_diagnostika] =>
[vycet_osob] => PODUŠKA, J.; HUTAŘ, P.; KUČERA, J.; FRANK, A.; SADÍLEK, J.; PINTER, G.; NÁHLÍK, L.
[pocet_tvurcu] => 7
[tvurci_ids] =>
[poznamka] =>
[typ_nazev] =>
[kod_doi] => 10.1016/j.polymertesting.2016.07.017
[kod_dspace] =>
[rok_vytvoreni] =>
[pocet_zaznamu] =>
[zverejneno] => 1
[prvni_autor] =>
[korespondencni_autor] =>
[posledni_autor] =>
[znamka] =>
[kategorie_nazev] => Publikační výsledky
[druh_nazev] => Článek WoS
[druh_popis] => Článek v odborném periodiku je obsažen v databázi Web of Science společností Thomson Reuters s příznakem „Article“, „Review“ nebo „Letter“
[stav] => Schválený
[vysledek_kategorie_id] => PV
[vysledek_system_kategorie_id] => PU
[vysledek_stav_id] => 3
[vlozil] => Informační systém Automat
[upravil] => Informační systém Automat
[ins_uid] => 999999
[upd_uid] => 999999
[ins_ts] => 2025-09-22
[upd_ts] => 2025-09-22
[status] => 9
[identifikator] => ISSN 0142-9418
[identifikator_popis] => ISSN - POLYMER TESTING (GB)
[riv_dodavka_id] => 2808
[riv_dodavka_oznaceni] => RIV17-MSM-26210___
[riv_dodavka_rok] => 2017
[diagnostika_pocet] => 0
[diagnostika_pocet_chyba] => 0
[diagnostika_pocet_upozorneni] => 0
[diagnostika_pocet_informace] => 0
[citace_text] => PODUŠKA, J.; HUTAŘ, P.; KUČERA, J.; FRANK, A.; SADÍLEK, J.; PINTER, G.; NÁHLÍK, L. Residual stress in polyethylene pipes. POLYMER TESTING, 2016, vol. 54, no. 1, p. 288-295. ISSN: 0142-9418.
[citace_html] => PODUŠKA, J.; HUTAŘ, P.; KUČERA, J.; FRANK, A.; SADÍLEK, J.; PINTER, G.; NÁHLÍK, L. Residual stress in polyethylene pipes. POLYMER TESTING, 2016, vol. 54, no. 1, p. 288-295. ISSN: 0142-9418.
[citace_rtf] =>
[citace_bibtex] => @article{BUT127087,
author="Jan {Poduška} and Pavel {Hutař} and Jaroslav {Kučera} and Andreas {Frank} and Jiří {Sadílek} and Gerald {Pinter} and Luboš {Náhlík}",
title="Residual stress in polyethylene pipes",
journal="POLYMER TESTING",
year="2016",
volume="54",
number="1",
pages="288--295",
doi="10.1016/j.polymertesting.2016.07.017",
issn="0142-9418",
url="https://www.sciencedirect.com/science/article/pii/S0142941816304512"
}
[vykazano] =>
[vykazano_aspon_jednou] =>
[identifikacni_kod] =>
[neautorsky_vysledek] => 0
[if] => 2.464
[if_q] => 1
[if_m17_q] => 2
[if_m25_q] => 2
[if_d] =>
[if_m17_d] => 3
[if_m25_d] => 3
[if_percentil] => 83.333
[if_m17_percentil] => 73.714
[if_m25_percentil] => 73.714
[ais] => 0.518
[ais_m17_q] => 2
[ais_m25_q] => 2
[ais_m17_d] => 4
[ais_m25_d] => 4
[ais_m17_percentil] => 70.023
[ais_m25_percentil] => 70.023
[jci] =>
[jci_q] =>
[jci_percentil] =>
[ef] =>
[scopus_sjr] =>
[scopus_sjr_q] =>
[scopus_sjr_d] =>
[nature_index_group] =>
[incites_times_cited] =>
[incites_open_access] =>
[incites_jnci] =>
[incites_is_int_collab] =>
[incites_is_industry_collab] =>
[incites_esi_hot_paper] =>
[incites_esi_highly_cited_paper] =>
[incites_avg_cnci] =>
[incites_avg_percentile] =>
[scival_citations_count] =>
[scival_fwci] =>
[core_rank] => NA
[oecd_tree_oblast_id] => 20000
[oecd_tree_oblast_nazev] => 2. Engineering and Technology
[oecd_tree_obor_id] => 20300
[oecd_tree_obor_nazev] => 2.3 Mechanical engineering
[oecd_tree_podobor_id] => 20306
[oecd_tree_podobor_nazev] => Audio engineering, reliability analysis
[poznamka_metriky] =>
[nazev_en] => Residual stress in polyethylene pipes
[popis_en] => This paper deals with residual stress in polyethylene (PE) pipes as an important factor that influences their lifetime. Residual hoop stress distribution in a PE pipe was determined using a methodology previously carried out by the authors on polypropylene pipes. Axial residual stress magnitude was determined by comparison of experimental data and finite element modelling. Based on the obtained results, a new simplified methodology for determining the residual hoop stress is proposed. The method needs only one circular specimen made of pipe, but, unlike older methods, provides a more precise estimation of residual hoop stress distribution taking into account its exponential shape. Some older results from literature are recalculated using this method and residual hoop stress of various PE pipe grades and dimensions are then compared. To provide an idea of residual hoop stress influence on lifetime of a pipe, a lifetime estimation is carried out for the examined pipe.
[klicova_slova_en] => polyethylene pipe; residual stress; riing slitting method; lifetime estimation
[vysledek_datum] => 2016-09-01T00:00:00+02:00
)
[12] => Array
(
[vysledek_id] => 127123
[vysledek_druh_id] => ARTWOS
[ex_vysledek_id] => 119817
[vysledek_rok] => 2016
[nazev] => Point defects stabilise cubic Mo-N and Ta-N
[nazev_orig] => Point defects stabilise cubic Mo-N and Ta-N
[duvernost_udaju_id] => S
[popis] => We employab initio calculations to investigate energetics of point defects in metastable rocksalt cubic Ta-N and Mo-N. Our results reveal a strong tendency to off-stoichiometry, i.e. defected structures are predicted to be more stable than perfect ones with 1:1 metal-to-nitrogen stoichiometry, in agreement with previous literature reports. While Ta-N significantly favours metal vacancies, Mo-N exhibits similar energies of formation regardless of the vacancy type (V Mo , V N ) as long as their concentration is below ?15at.\% . The overall lowest energy of formation were obtained for Ta 0.78 N and Mo 0.91 N , which are hence predicted to be the most stable compositions. To account for various experimental condition during synthesis, we further evaluated the phase stability as a function of chemical potential of individual species. The proposed phase diagrams reveal four stable compositions, Mo 0.84 N , Mo 0.91 N , MoN 0.69 and MoN 0.44 , in the case of Mo-N and nine stable compositions in the case of Ta-N indicating the crucial role of metal under-stoichiometry, since Ta 0.75 N and Ta 0.78 N significantly dominate the diagram. These results are important for understanding and designing experiments using non-equilibrium deposition techniques. Finally, we discuss a role of defects ordering and estimate a cubic lattice parameter as a function of a defect contents.
[popis_orig] => We employab initio calculations to investigate energetics of point defects in metastable rocksalt cubic Ta-N and Mo-N. Our results reveal a strong tendency to off-stoichiometry, i.e. defected structures are predicted to be more stable than perfect ones with 1:1 metal-to-nitrogen stoichiometry, in agreement with previous literature reports. While Ta-N significantly favours metal vacancies, Mo-N exhibits similar energies of formation regardless of the vacancy type (V Mo , V N ) as long as their concentration is below ?15at.\% . The overall lowest energy of formation were obtained for Ta 0.78 N and Mo 0.91 N , which are hence predicted to be the most stable compositions. To account for various experimental condition during synthesis, we further evaluated the phase stability as a function of chemical potential of individual species. The proposed phase diagrams reveal four stable compositions, Mo 0.84 N , Mo 0.91 N , MoN 0.69 and MoN 0.44 , in the case of Mo-N and nine stable compositions in the case of Ta-N indicating the crucial role of metal under-stoichiometry, since Ta 0.75 N and Ta 0.78 N significantly dominate the diagram. These results are important for understanding and designing experiments using non-equilibrium deposition techniques. Finally, we discuss a role of defects ordering and estimate a cubic lattice parameter as a function of a defect contents.
[klicova_slova] => Mo-N;Ta-N;point defects;vacancies;stability;DFT
[klicova_slova_orig] => Mo-N;Ta-N;point defects;vacancies;stability;DFT
[url] => http://dx.doi.org/10.1088/0022-3727/49/37/375303
[oecd_obor_id] => 10302
[odpovedny_utvar_id] => 157
[odpovedny_utvar_nazev] => Ústav mechaniky těles, mechatroniky a biomechaniky
[odpovedny_utvar_zkratka] => ÚMTMB
[nadrazena_soucast_id] => 4
[nadrazena_soucast_zkratka] => FSI
[nadrazena_soucast_nazev] => Fakulta strojního inženýrství
[originalni_jazyk] => en
[schvalil_id] => 161067
[schvaleno] => 2018-01-08
[vykazovat_riv] => 1
[vykazovat_riv_zmeny] => 1
[slozka_id] => 114305
[posledni_diagnostika] =>
[vycet_osob] => KOUTNÁ, N.; HOLEC, D.; SVOBODA, O.; KLIMASHIN, F.; MAYRHOFER, P.
[pocet_tvurcu] => 5
[tvurci_ids] =>
[poznamka] =>
[typ_nazev] =>
[kod_doi] => 10.1088/0022-3727/49/37/375303
[kod_dspace] => 11012/203171
[rok_vytvoreni] =>
[pocet_zaznamu] =>
[zverejneno] => 1
[prvni_autor] =>
[korespondencni_autor] =>
[posledni_autor] =>
[znamka] =>
[kategorie_nazev] => Publikační výsledky
[druh_nazev] => Článek WoS
[druh_popis] => Článek v odborném periodiku je obsažen v databázi Web of Science společností Thomson Reuters s příznakem „Article“, „Review“ nebo „Letter“
[stav] => Schválený
[vysledek_kategorie_id] => PV
[vysledek_system_kategorie_id] => PU
[vysledek_stav_id] => 3
[vlozil] => Informační systém Automat
[upravil] => Informační systém Automat
[ins_uid] => 999999
[upd_uid] => 999999
[ins_ts] => 2025-09-22
[upd_ts] => 2025-09-22
[status] => 9
[identifikator] => ISSN 0022-3727
[identifikator_popis] => ISSN - JOURNAL OF PHYSICS D-APPLIED PHYSICS (GB)
[riv_dodavka_id] => 1864
[riv_dodavka_oznaceni] => RIV18-TA0-26510___
[riv_dodavka_rok] => 2018
[diagnostika_pocet] => 0
[diagnostika_pocet_chyba] => 0
[diagnostika_pocet_upozorneni] => 0
[diagnostika_pocet_informace] => 0
[citace_text] => KOUTNÁ, N.; HOLEC, D.; SVOBODA, O.; KLIMASHIN, F.; MAYRHOFER, P. Point defects stabilise cubic Mo-N and Ta-N. JOURNAL OF PHYSICS D-APPLIED PHYSICS, 2016, vol. 49, no. 37, p. 1-8. ISSN: 0022-3727.
[citace_html] => KOUTNÁ, N.; HOLEC, D.; SVOBODA, O.; KLIMASHIN, F.; MAYRHOFER, P. Point defects stabilise cubic Mo-N and Ta-N. JOURNAL OF PHYSICS D-APPLIED PHYSICS, 2016, vol. 49, no. 37, p. 1-8. ISSN: 0022-3727.
[citace_rtf] =>
[citace_bibtex] => @article{BUT127123,
author="Nikola {Koutná} and David {Holec} and Ondřej {Svoboda} and Fedor {Klimashin} and Paul {Mayrhofer}",
title="Point defects stabilise cubic Mo-N and Ta-N",
journal="JOURNAL OF PHYSICS D-APPLIED PHYSICS",
year="2016",
volume="49",
number="37",
pages="1--8",
doi="10.1088/0022-3727/49/37/375303",
issn="0022-3727",
url="http://dx.doi.org/10.1088/0022-3727/49/37/375303"
}
[vykazano] =>
[vykazano_aspon_jednou] =>
[identifikacni_kod] =>
[neautorsky_vysledek] => 0
[if] => 2.588
[if_q] => 2
[if_m17_q] => 2
[if_m25_q] => 2
[if_d] =>
[if_m17_d] => 3
[if_m25_d] => 3
[if_percentil] => 70.608
[if_m17_percentil] => 71.415
[if_m25_percentil] => 71.471
[ais] => 0.761
[ais_m17_q] => 2
[ais_m25_q] => 2
[ais_m17_d] => 4
[ais_m25_d] => 4
[ais_m17_percentil] => 69.724
[ais_m25_percentil] => 69.783
[jci] =>
[jci_q] =>
[jci_percentil] =>
[ef] =>
[scopus_sjr] =>
[scopus_sjr_q] =>
[scopus_sjr_d] =>
[nature_index_group] =>
[incites_times_cited] =>
[incites_open_access] =>
[incites_jnci] =>
[incites_is_int_collab] =>
[incites_is_industry_collab] =>
[incites_esi_hot_paper] =>
[incites_esi_highly_cited_paper] =>
[incites_avg_cnci] =>
[incites_avg_percentile] =>
[scival_citations_count] =>
[scival_fwci] =>
[core_rank] => NA
[oecd_tree_oblast_id] => 10000
[oecd_tree_oblast_nazev] => 1. Natural Sciences
[oecd_tree_obor_id] => 10300
[oecd_tree_obor_nazev] => 1.3 Physical sciences
[oecd_tree_podobor_id] => 10302
[oecd_tree_podobor_nazev] => Condensed matter physics (including formerly solid state physics, supercond.)
[poznamka_metriky] =>
[nazev_en] => Point defects stabilise cubic Mo-N and Ta-N
[popis_en] => We employab initio calculations to investigate energetics of point defects in metastable rocksalt cubic Ta-N and Mo-N. Our results reveal a strong tendency to off-stoichiometry, i.e. defected structures are predicted to be more stable than perfect ones with 1:1 metal-to-nitrogen stoichiometry, in agreement with previous literature reports. While Ta-N significantly favours metal vacancies, Mo-N exhibits similar energies of formation regardless of the vacancy type (V Mo , V N ) as long as their concentration is below ?15at.\% . The overall lowest energy of formation were obtained for Ta 0.78 N and Mo 0.91 N , which are hence predicted to be the most stable compositions. To account for various experimental condition during synthesis, we further evaluated the phase stability as a function of chemical potential of individual species. The proposed phase diagrams reveal four stable compositions, Mo 0.84 N , Mo 0.91 N , MoN 0.69 and MoN 0.44 , in the case of Mo-N and nine stable compositions in the case of Ta-N indicating the crucial role of metal under-stoichiometry, since Ta 0.75 N and Ta 0.78 N significantly dominate the diagram. These results are important for understanding and designing experiments using non-equilibrium deposition techniques. Finally, we discuss a role of defects ordering and estimate a cubic lattice parameter as a function of a defect contents.
[klicova_slova_en] => Mo-N;Ta-N;point defects;vacancies;stability;DFT
[vysledek_datum] => 2016-08-22T00:00:00+02:00
)
[13] => Array
(
[vysledek_id] => 127222
[vysledek_druh_id] => CONPA
[ex_vysledek_id] => 119845
[vysledek_rok] => 2016
[nazev] => Estimation of Orthotropic Mechanical Properties of Human Alveolar Bone
[nazev_orig] => Estimation of Orthotropic Mechanical Properties of Human Alveolar Bone
[duvernost_udaju_id] => S
[popis] => In computational simulations of biomechanical problems, cancellous bone has often been modeled as a homogeneous, linear isotropic or orthotropic continuum. However, a need for higher modeling level is topical when it comes to simulations related to the dental implantology. The purpose of this study is to analyze cancellous bone specimens from alveolar bone, to estimate their apparent mechanical properties (assuming linear orthotropy) and to discuss their applicability in computational simulations of dental implantology problems. For this purpose, four cancellous bone segments from the first premolar region of human mandible were scanned on μCT device and subsequently analyzed using methods of biomechanical finite element simulations. In combination with the standard equations of mechanics of materials for calculating beam stiffness, nine independent elastic constants of linear orthotropic material model were determined for all analyzed segments. The results confirmed that the elastic constants are strongly dependent on the quality of the analyzed segment and its topology. It was concluded that this type of material model should be used only in cases where the stresses and strains in the bone itself are not of main concern. Otherwise, the information about the histomorphometry data should be inseparable part of each such model.
[popis_orig] => In computational simulations of biomechanical problems, cancellous bone has often been modeled as a homogeneous, linear isotropic or orthotropic continuum. However, a need for higher modeling level is topical when it comes to simulations related to the dental implantology. The purpose of this study is to analyze cancellous bone specimens from alveolar bone, to estimate their apparent mechanical properties (assuming linear orthotropy) and to discuss their applicability in computational simulations of dental implantology problems. For this purpose, four cancellous bone segments from the first premolar region of human mandible were scanned on μCT device and subsequently analyzed using methods of biomechanical finite element simulations. In combination with the standard equations of mechanics of materials for calculating beam stiffness, nine independent elastic constants of linear orthotropic material model were determined for all analyzed segments. The results confirmed that the elastic constants are strongly dependent on the quality of the analyzed segment and its topology. It was concluded that this type of material model should be used only in cases where the stresses and strains in the bone itself are not of main concern. Otherwise, the information about the histomorphometry data should be inseparable part of each such model.
[klicova_slova] => Bone, Mandible, FEM, micro-CT
[klicova_slova_orig] => Bone, Mandible, FEM, micro-CT
[url] =>
[oecd_obor_id] => 20301
[odpovedny_utvar_id] => 157
[odpovedny_utvar_nazev] => Ústav mechaniky těles, mechatroniky a biomechaniky
[odpovedny_utvar_zkratka] => ÚMTMB
[nadrazena_soucast_id] => 4
[nadrazena_soucast_zkratka] => FSI
[nadrazena_soucast_nazev] => Fakulta strojního inženýrství
[originalni_jazyk] => en
[schvalil_id] => 53543
[schvaleno] => 2016-09-05
[vykazovat_riv] => 1
[vykazovat_riv_zmeny] => 1
[slozka_id] =>
[posledni_diagnostika] =>
[vycet_osob] => MARCIÁN, P.; LOŠÁK, P.; KAISER, J.; BORÁK, L.
[pocet_tvurcu] => 4
[tvurci_ids] =>
[poznamka] =>
[typ_nazev] =>
[kod_doi] =>
[kod_dspace] =>
[rok_vytvoreni] =>
[pocet_zaznamu] =>
[zverejneno] => 1
[prvni_autor] =>
[korespondencni_autor] =>
[posledni_autor] =>
[znamka] =>
[kategorie_nazev] => Publikační výsledky
[druh_nazev] => Stať ve sborníku v databázi WoS či Scopus
[druh_popis] => Stať ve sborníku v databázi WoS či Scopus
[stav] => Schválený
[vysledek_kategorie_id] => PV
[vysledek_system_kategorie_id] => PU
[vysledek_stav_id] => 3
[vlozil] => Informační systém Automat
[upravil] => Informační systém Automat
[ins_uid] => 999999
[upd_uid] => 999999
[ins_ts] => 2025-09-22
[upd_ts] => 2025-09-22
[status] => 9
[identifikator] => ISBN 978-80-87012-59-8
[identifikator_popis] => ISBN - Engineering Mechanics 2016
[riv_dodavka_id] => 1513
[riv_dodavka_oznaceni] => RIV18-TA0-26510___
[riv_dodavka_rok] => 2017
[diagnostika_pocet] => 0
[diagnostika_pocet_chyba] => 0
[diagnostika_pocet_upozorneni] => 0
[diagnostika_pocet_informace] => 0
[citace_text] => MARCIÁN, P.; LOŠÁK, P.; KAISER, J.; BORÁK, L. Estimation of Orthotropic Mechanical Properties of Human Alveolar Bone. In Engineering Mechanics 2016. 2016. p. 370-373. ISBN: 978-80-87012-59-8.
[citace_html] => MARCIÁN, P.; LOŠÁK, P.; KAISER, J.; BORÁK, L. Estimation of Orthotropic Mechanical Properties of Human Alveolar Bone. In Engineering Mechanics 2016. 2016. p. 370-373. ISBN: 978-80-87012-59-8.
[citace_rtf] =>
[citace_bibtex] => @inproceedings{BUT127222,
author="Petr {Marcián} and Petr {Lošák} and Jozef {Kaiser} and Libor {Borák}",
title="Estimation of Orthotropic Mechanical Properties of Human Alveolar Bone",
booktitle="Engineering Mechanics 2016",
year="2016",
pages="370--373",
isbn="978-80-87012-59-8"
}
[vykazano] =>
[vykazano_aspon_jednou] =>
[identifikacni_kod] =>
[neautorsky_vysledek] => 0
[if] =>
[if_q] =>
[if_m17_q] =>
[if_m25_q] =>
[if_d] =>
[if_m17_d] =>
[if_m25_d] =>
[if_percentil] =>
[if_m17_percentil] =>
[if_m25_percentil] =>
[ais] =>
[ais_m17_q] =>
[ais_m25_q] =>
[ais_m17_d] =>
[ais_m25_d] =>
[ais_m17_percentil] =>
[ais_m25_percentil] =>
[jci] =>
[jci_q] =>
[jci_percentil] =>
[ef] =>
[scopus_sjr] =>
[scopus_sjr_q] =>
[scopus_sjr_d] =>
[nature_index_group] =>
[incites_times_cited] =>
[incites_open_access] =>
[incites_jnci] =>
[incites_is_int_collab] =>
[incites_is_industry_collab] =>
[incites_esi_hot_paper] =>
[incites_esi_highly_cited_paper] =>
[incites_avg_cnci] =>
[incites_avg_percentile] =>
[scival_citations_count] =>
[scival_fwci] =>
[core_rank] => NA
[oecd_tree_oblast_id] => 20000
[oecd_tree_oblast_nazev] => 2. Engineering and Technology
[oecd_tree_obor_id] => 20300
[oecd_tree_obor_nazev] => 2.3 Mechanical engineering
[oecd_tree_podobor_id] => 20301
[oecd_tree_podobor_nazev] => Mechanical engineering
[poznamka_metriky] =>
[nazev_en] => Estimation of Orthotropic Mechanical Properties of Human Alveolar Bone
[popis_en] => In computational simulations of biomechanical problems, cancellous bone has often been modeled as a homogeneous, linear isotropic or orthotropic continuum. However, a need for higher modeling level is topical when it comes to simulations related to the dental implantology. The purpose of this study is to analyze cancellous bone specimens from alveolar bone, to estimate their apparent mechanical properties (assuming linear orthotropy) and to discuss their applicability in computational simulations of dental implantology problems. For this purpose, four cancellous bone segments from the first premolar region of human mandible were scanned on μCT device and subsequently analyzed using methods of biomechanical finite element simulations. In combination with the standard equations of mechanics of materials for calculating beam stiffness, nine independent elastic constants of linear orthotropic material model were determined for all analyzed segments. The results confirmed that the elastic constants are strongly dependent on the quality of the analyzed segment and its topology. It was concluded that this type of material model should be used only in cases where the stresses and strains in the bone itself are not of main concern. Otherwise, the information about the histomorphometry data should be inseparable part of each such model.
[klicova_slova_en] => Bone, Mandible, FEM, micro-CT
[vysledek_datum] => 2016-05-09T00:00:00+02:00
)
)
)
Array
(
[total] => 3612
[page] => 192
[count] => 14
[n_pages] => 241
[pagelen] => 15
[odkaz] => typVysledku=&rok=&ftext=&btnSubmit=1
[base_detail] => /veda/publikace/detail/
[base_page] => /veda/publikace
[vysledek] => Array
(
[0] => Array
(
[quotations] => HOUFEK, L.; KREJČÍ, P.; HOUFEK, M.
[title] => Měření zubů IGW
[typ] => PX
[year] => 2015
[id_vav] => 122770
)
[1] => Array
(
[quotations] => KUBÍK, P.; PEČ, M.; NÁVRAT, T.; PETRUŠKA, J.
[title] => Deformačně-napěťová analýza soustavy tampón-tvarový prvek
[typ] => PX
[year] => 2015
[id_vav] => 122781
)
[2] => Array
(
[quotations] => MARCIÁN, P.; JANÍČEK, P.
[title] => Analýza deformací a napětí v TEP kolene – varianta velikost TEP 0 (zatížení tlakem a ohybem)
[typ] => PX
[year] => 2015
[id_vav] => 122782
)
[3] => Array
(
[quotations] => NÁVRAT, T.; LOŠÁK, P.
[title] => Výpočtové modelování vibrací stroje WHR 13 - Fáze B: Analýza vibrací krytování stroje
[typ] => PX
[year] => 2015
[id_vav] => 122790
)
[4] => Array
(
[quotations] => GREPL, R.
[title] => Úprava zkušebního stavu pro zkoušky náklonem pro nádržové moduly
[typ] => PX
[year] => 2015
[id_vav] => 122881
)
[5] => Array
(
[quotations] => GREPL, R.
[title] => Řízení zařízení TUMBLER dle specifikace
[typ] => PX
[year] => 2015
[id_vav] => 122882
)
[6] => Array
(
[quotations] => GREPL, R.; SOVA, V.; CHALUPA, J.
[title] => 21st IEEE International Conference on Automation and Computing
[typ] => EV
[year] => 2015
[id_vav] => 122923
)
[7] => Array
(
[quotations] => KREJČÍ, P.; KOUTNÝ, D.
[title] => Correlated Design Component Test Report
[typ] => PX
[year] => 2015
[id_vav] => 122940
)
[8] => Array
(
[quotations] => SKÁCEL, P.; BURŠA, J.
[title] => Poisson's ratio of arterial wall – inconsistency of constitutive models with experimental data
[typ] => PV
[year] => 2016
[id_vav] => 122955
)
[9] => Array
(
[quotations] => NÁHLÍK, L.; ŠTEGNEROVÁ, K.; MÁŠA, B.; HUTAŘ, P.
[title] => A failure scenario of ceramic laminates with strong interfaces
[typ] => PV
[year] => 2016
[id_vav] => 124709
)
[10] => Array
(
[quotations] => HÁJEK, P.; ŠVANCARA, P.; HORÁČEK, J.; ŠVEC, J.
[title] => Numerical Simulation of the Effect of Stiffness of Lamina Propria on the Self-sustained Oscillation of the Vocal Folds
[typ] => PV
[year] => 2016
[id_vav] => 126290
)
[11] => Array
(
[quotations] => PODUŠKA, J.; HUTAŘ, P.; KUČERA, J.; FRANK, A.; SADÍLEK, J.; PINTER, G.; NÁHLÍK, L.
[title] => Residual stress in polyethylene pipes
[typ] => PV
[year] => 2016
[id_vav] => 127087
)
[12] => Array
(
[quotations] => KOUTNÁ, N.; HOLEC, D.; SVOBODA, O.; KLIMASHIN, F.; MAYRHOFER, P.
[title] => Point defects stabilise cubic Mo-N and Ta-N
[typ] => PV
[year] => 2016
[id_vav] => 127123
)
[13] => Array
(
[quotations] => MARCIÁN, P.; LOŠÁK, P.; KAISER, J.; BORÁK, L.
[title] => Estimation of Orthotropic Mechanical Properties of Human Alveolar Bone
[typ] => PV
[year] => 2016
[id_vav] => 127222
)
)
)