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Titolo:
MICROSTRUCTURE AND MECHANICAL-BEHAVIOR OF REACTION HOT-PRESSED TITANIUM SILICIDE AND TITANIUM SILICIDE-BASED ALLOYS AND COMPOSITES
Autore:
MITRA R;
Indirizzi:
DEF MET RES LAB,COMPOSITES GRP HYDERABAD 500058 ANDHRA PRADESH INDIA
Titolo Testata:
Metallurgical and materials transactions. A, Physical metallurgy andmaterials science
fascicolo: 6, volume: 29, anno: 1998,
pagine: 1629 - 1641
SICI:
1073-5623(1998)29:6<1629:MAMORH>2.0.ZU;2-U
Fonte:
ISI
Lingua:
ENG
Soggetto:
MOLYBDENUM DISILICIDE COMPOSITES; GRAIN-SIZE DEPENDENCE; COMBUSTION SYNTHESIS; FRACTURE-TOUGHNESS; INTERMETALLIC TI5SI3; THERMAL-EXPANSION; CRACK DEFLECTION; CERAMICS; INDENTATION; MOSI2;
Tipo documento:
Article
Natura:
Periodico
Settore Disciplinare:
Science Citation Index Expanded
Science Citation Index Expanded
Citazioni:
57
Recensione:
Indirizzi per estratti:
Citazione:
R. Mitra, "MICROSTRUCTURE AND MECHANICAL-BEHAVIOR OF REACTION HOT-PRESSED TITANIUM SILICIDE AND TITANIUM SILICIDE-BASED ALLOYS AND COMPOSITES", Metallurgical and materials transactions. A, Physical metallurgy andmaterials science, 29(6), 1998, pp. 1629-1641

Abstract

Titanium silicide (Ti5Si3) and its composites show promise for applications at temperature higher than 1000 degrees C. Dense Ti5Si3 was processed by reaction hot pressing of a TiH2/Si powder mixture, which involved decomposition of TiH2 into Ti and H-2 at around 800 degrees C, achemical reaction between Ti and liquid Si at 1500 degrees C forming Ti5Si3 in situ, and densification under pressure. The use of fine TiH2particles led to the formation of a relatively fine-grained microstructure with fewer microcracks and higher hardness and fracture toughness values than those expected for a coarse-grained Ti5Si3. The additionof 8 wt pct Al as an alloying element led to the formation of Al0.67Si0.08Ti0.25 and Al2O3 in situ and a solid solution of Al in Ti5Si3. Both alloying with Al and the addition of TiC as a reinforcement phase improved the room-temperature facture toughness. Fracture toughness measurements were performed by three-point bend testing of single-edge notch bend (SENB) specimens, as well as by indentation techniques using different models, and the data have been compared. The role of different operating toughening mechanisms such as crack deflection, bridging,branching, and energy dissipation through microcracking have been examined. The investigation has also shown that Ti5Si3 maintains a high yield strength value up to 1200 degrees C.

ASDD Area Sistemi Dipartimentali e Documentali, Università di Bologna, Catalogo delle riviste ed altri periodici
Documento generato il 14/07/20 alle ore 03:48:00