TY - JOUR
T1 - Synthesis and some properties of Ti3SiC2 by hot pressing of Ti, Si and C powders Part 2 - Mechanical and other properties of Ti3SiC2
AU - Li, S. B.
AU - Xie, J. X.
AU - Zhang, L. T.
AU - Cheng, L. F.
PY - 2005/9
Y1 - 2005/9
N2 - Some properties of the remarkable Ti3SiC2 based ceramic synthesised by hot pressing of elemental Ti, Si, and C powders have been investigated. Its flexural strength by using three point bending tests and fracture toughness by using single edge notched beam tests were measured at room temperature to be in the range 310-427 MPa and about 7-0 MPa m 1/2, respectively. This material is a relative 'soft' ceramic with a low hardness of 4 GPa. Ti3SiC2 is similar to the soft metals and is a damage tolerant material that is able to contain the extent of microdamage. An oxidation test has been performed in the temperature range 1000-1400°C in air for 20 h. The oxidation resistance below 1100°C was good. Two oxidized layers were formed, the outer layer consisting of pure rutile-type TiO2, and the inner layer a mixture of SiO2 and TiO2. The average coefficient of thermal expansion (CTE) of Ti3SiC2 was measured to be 9-29 × 10-6 K-1 in the temperature range 25-1400°C. The thermal shock resistance of Ti3SiC2 was evaluated by quenching the samples from 800°C, 1200°C, and 1400°C, respectively. The retained flexural strength drops dramatically at quenching temperature, but shows a slight increase after quenching from 1400°C compared with quenching from 800°C and 1200°C.
AB - Some properties of the remarkable Ti3SiC2 based ceramic synthesised by hot pressing of elemental Ti, Si, and C powders have been investigated. Its flexural strength by using three point bending tests and fracture toughness by using single edge notched beam tests were measured at room temperature to be in the range 310-427 MPa and about 7-0 MPa m 1/2, respectively. This material is a relative 'soft' ceramic with a low hardness of 4 GPa. Ti3SiC2 is similar to the soft metals and is a damage tolerant material that is able to contain the extent of microdamage. An oxidation test has been performed in the temperature range 1000-1400°C in air for 20 h. The oxidation resistance below 1100°C was good. Two oxidized layers were formed, the outer layer consisting of pure rutile-type TiO2, and the inner layer a mixture of SiO2 and TiO2. The average coefficient of thermal expansion (CTE) of Ti3SiC2 was measured to be 9-29 × 10-6 K-1 in the temperature range 25-1400°C. The thermal shock resistance of Ti3SiC2 was evaluated by quenching the samples from 800°C, 1200°C, and 1400°C, respectively. The retained flexural strength drops dramatically at quenching temperature, but shows a slight increase after quenching from 1400°C compared with quenching from 800°C and 1200°C.
KW - Coefficient of thermal expansion
KW - Mechanical properties
KW - Oxidation resistance
KW - Thermal shock resistance
KW - TiSiC ceramic
UR - http://www.scopus.com/inward/record.url?scp=25644453522&partnerID=8YFLogxK
U2 - 10.1179/174328405X58841
DO - 10.1179/174328405X58841
M3 - 文章
AN - SCOPUS:25644453522
SN - 0267-0836
VL - 21
SP - 1054
EP - 1058
JO - Materials Science and Technology
JF - Materials Science and Technology
IS - 9
ER -