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Mechanical Behavior of Sintered Porous Two-Phase Titanium Nanolaminate-Composites at High Temperatures

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Zeitschriftentitel: Key Engineering Materials
Personen und Körperschaften: Firstov, Sergiy A., Gorban, Victor F., Ivanova, Inna I., Pechkovsky, Engel P.
In: Key Engineering Materials, 409, 2009, S. 300-303
Format: E-Article
Sprache: Unbestimmt
veröffentlicht:
Trans Tech Publications, Ltd.
Schlagwörter:
Mechanical Engineering
Mechanics of Materials
General Materials Science
author_facet Firstov, Sergiy A.
Gorban, Victor F.
Ivanova, Inna I.
Pechkovsky, Engel P.
Firstov, Sergiy A.
Gorban, Victor F.
Ivanova, Inna I.
Pechkovsky, Engel P.
author Firstov, Sergiy A.
Gorban, Victor F.
Ivanova, Inna I.
Pechkovsky, Engel P.
spellingShingle Firstov, Sergiy A.
Gorban, Victor F.
Ivanova, Inna I.
Pechkovsky, Engel P.
Key Engineering Materials
Mechanical Behavior of Sintered Porous Two-Phase Titanium Nanolaminate-Composites at High Temperatures
Mechanical Engineering
Mechanics of Materials
General Materials Science
author_sort firstov, sergiy a.
spelling Firstov, Sergiy A. Gorban, Victor F. Ivanova, Inna I. Pechkovsky, Engel P. 1662-9795 Trans Tech Publications, Ltd. Mechanical Engineering Mechanics of Materials General Materials Science http://dx.doi.org/10.4028/www.scientific.net/kem.409.300 <jats:p>Regularities, features and mechanisms of deformation and fracture processes of new ceramic materials – porous (=3-35 %) two-phase titanium nanolaminate-composites Ti3SiC2/TiC, Ti3AlC2/TiC, Ti4AlN3/TiN (content of TiC or TiN – 5-70 % vol.) at 20-1300 оС are established. Composites are made by reaction sintering. On increase in mechanical properties and resistance to deformation they settle down in the following sequence: Ti3AlC2/TiC–Ti4AlN3/TiN–Ti3SiC2/TiC. In porous nanolaminate-composites containing less than 20 % TiC the increase in porosity  results in decrease in high-temperature strength pl and increase of plasticity . Appreciable increase of strength of porous composites is marked at content TiC&gt;25-30 % (vol.).</jats:p> Mechanical Behavior of Sintered Porous Two-Phase Titanium Nanolaminate-Composites at High Temperatures Key Engineering Materials
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title Mechanical Behavior of Sintered Porous Two-Phase Titanium Nanolaminate-Composites at High Temperatures
title_unstemmed Mechanical Behavior of Sintered Porous Two-Phase Titanium Nanolaminate-Composites at High Temperatures
title_full Mechanical Behavior of Sintered Porous Two-Phase Titanium Nanolaminate-Composites at High Temperatures
title_fullStr Mechanical Behavior of Sintered Porous Two-Phase Titanium Nanolaminate-Composites at High Temperatures
title_full_unstemmed Mechanical Behavior of Sintered Porous Two-Phase Titanium Nanolaminate-Composites at High Temperatures
title_short Mechanical Behavior of Sintered Porous Two-Phase Titanium Nanolaminate-Composites at High Temperatures
title_sort mechanical behavior of sintered porous two-phase titanium nanolaminate-composites at high temperatures
topic Mechanical Engineering
Mechanics of Materials
General Materials Science
url http://dx.doi.org/10.4028/www.scientific.net/kem.409.300
publishDate 2009
physical 300-303
description <jats:p>Regularities, features and mechanisms of deformation and fracture processes of new ceramic materials – porous (=3-35 %) two-phase titanium nanolaminate-composites Ti3SiC2/TiC, Ti3AlC2/TiC, Ti4AlN3/TiN (content of TiC or TiN – 5-70 % vol.) at 20-1300 оС are established. Composites are made by reaction sintering. On increase in mechanical properties and resistance to deformation they settle down in the following sequence: Ti3AlC2/TiC–Ti4AlN3/TiN–Ti3SiC2/TiC. In porous nanolaminate-composites containing less than 20 % TiC the increase in porosity  results in decrease in high-temperature strength pl and increase of plasticity . Appreciable increase of strength of porous composites is marked at content TiC&gt;25-30 % (vol.).</jats:p>
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author Firstov, Sergiy A., Gorban, Victor F., Ivanova, Inna I., Pechkovsky, Engel P.
author_facet Firstov, Sergiy A., Gorban, Victor F., Ivanova, Inna I., Pechkovsky, Engel P., Firstov, Sergiy A., Gorban, Victor F., Ivanova, Inna I., Pechkovsky, Engel P.
author_sort firstov, sergiy a.
container_start_page 300
container_title Key Engineering Materials
container_volume 409
description <jats:p>Regularities, features and mechanisms of deformation and fracture processes of new ceramic materials – porous (=3-35 %) two-phase titanium nanolaminate-composites Ti3SiC2/TiC, Ti3AlC2/TiC, Ti4AlN3/TiN (content of TiC or TiN – 5-70 % vol.) at 20-1300 оС are established. Composites are made by reaction sintering. On increase in mechanical properties and resistance to deformation they settle down in the following sequence: Ti3AlC2/TiC–Ti4AlN3/TiN–Ti3SiC2/TiC. In porous nanolaminate-composites containing less than 20 % TiC the increase in porosity  results in decrease in high-temperature strength pl and increase of plasticity . Appreciable increase of strength of porous composites is marked at content TiC&gt;25-30 % (vol.).</jats:p>
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imprint_str_mv Trans Tech Publications, Ltd., 2009
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mega_collection Trans Tech Publications, Ltd. (CrossRef)
physical 300-303
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publisher Trans Tech Publications, Ltd.
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recordtype ai
series Key Engineering Materials
source_id 49
spelling Firstov, Sergiy A. Gorban, Victor F. Ivanova, Inna I. Pechkovsky, Engel P. 1662-9795 Trans Tech Publications, Ltd. Mechanical Engineering Mechanics of Materials General Materials Science http://dx.doi.org/10.4028/www.scientific.net/kem.409.300 <jats:p>Regularities, features and mechanisms of deformation and fracture processes of new ceramic materials – porous (=3-35 %) two-phase titanium nanolaminate-composites Ti3SiC2/TiC, Ti3AlC2/TiC, Ti4AlN3/TiN (content of TiC or TiN – 5-70 % vol.) at 20-1300 оС are established. Composites are made by reaction sintering. On increase in mechanical properties and resistance to deformation they settle down in the following sequence: Ti3AlC2/TiC–Ti4AlN3/TiN–Ti3SiC2/TiC. In porous nanolaminate-composites containing less than 20 % TiC the increase in porosity  results in decrease in high-temperature strength pl and increase of plasticity . Appreciable increase of strength of porous composites is marked at content TiC&gt;25-30 % (vol.).</jats:p> Mechanical Behavior of Sintered Porous Two-Phase Titanium Nanolaminate-Composites at High Temperatures Key Engineering Materials
spellingShingle Firstov, Sergiy A., Gorban, Victor F., Ivanova, Inna I., Pechkovsky, Engel P., Key Engineering Materials, Mechanical Behavior of Sintered Porous Two-Phase Titanium Nanolaminate-Composites at High Temperatures, Mechanical Engineering, Mechanics of Materials, General Materials Science
title Mechanical Behavior of Sintered Porous Two-Phase Titanium Nanolaminate-Composites at High Temperatures
title_full Mechanical Behavior of Sintered Porous Two-Phase Titanium Nanolaminate-Composites at High Temperatures
title_fullStr Mechanical Behavior of Sintered Porous Two-Phase Titanium Nanolaminate-Composites at High Temperatures
title_full_unstemmed Mechanical Behavior of Sintered Porous Two-Phase Titanium Nanolaminate-Composites at High Temperatures
title_short Mechanical Behavior of Sintered Porous Two-Phase Titanium Nanolaminate-Composites at High Temperatures
title_sort mechanical behavior of sintered porous two-phase titanium nanolaminate-composites at high temperatures
title_unstemmed Mechanical Behavior of Sintered Porous Two-Phase Titanium Nanolaminate-Composites at High Temperatures
topic Mechanical Engineering, Mechanics of Materials, General Materials Science
url http://dx.doi.org/10.4028/www.scientific.net/kem.409.300