TY - GEN
T1 - Mechanical response of the TiAl/steel brazed joint under micro-indentation and micro-hardness test
AU - Li, Yulong
AU - Liu, Wen
AU - Sekulic, Dusan P.
AU - He, Peng
AU - Feng, Jicai
PY - 2012
Y1 - 2012
N2 - TiAl-based alloy may be considered as a potential material for high-temperature applications, such as rotating components of advanced ground and space vehicles. In order to manufacture large or complex structural components, it is necessary to bond TiAl-based alloy to other materials. In particular, the bonding technology of TiAl-based alloy to structural steel using brazing method has been carried out. The mechanical response of the reaction phases of the brazed joint is rarely studied. In this study TiAl and steel were brazed with the AgCuTi filler metal. The joint zone between the mating surfaces features a complex structure: Al-Cu-Ti ternary intermetallic reaction layer, AgCu residue filler, AlCu 2Ti intermetallic dispersed in the residue braze and TiC layer. Mechanical properties of the reaction phases and base metals were studied by using the continuous instrumented micro indentation and conventional Vickers hardness testing. The hardness of the tested phases demonstrates a descending order as follows: (i) the Al-Cu-Ti ternary intermetallic reaction layer adjacent to TiAl substrate (ii) the AlCu2Ti intermetallic in the residue AgCu filler (iii) TiAl base metal (iv) steel (v) AgCu residue filler. The mechanical responses of the tested phases, in terms of the indentation depth are consistent with the results of hardness tests: the phases with smaller hardness are always associated with a larger indentation depth. Under the same testing conditions the Young's modulus of the TiAl substrate, Al-Cu-Ti ternary intermetallic layer, AlCu 2Ti intermetallic in the residue AgCu filler, AgCu residue phase, and the steel were determined.
AB - TiAl-based alloy may be considered as a potential material for high-temperature applications, such as rotating components of advanced ground and space vehicles. In order to manufacture large or complex structural components, it is necessary to bond TiAl-based alloy to other materials. In particular, the bonding technology of TiAl-based alloy to structural steel using brazing method has been carried out. The mechanical response of the reaction phases of the brazed joint is rarely studied. In this study TiAl and steel were brazed with the AgCuTi filler metal. The joint zone between the mating surfaces features a complex structure: Al-Cu-Ti ternary intermetallic reaction layer, AgCu residue filler, AlCu 2Ti intermetallic dispersed in the residue braze and TiC layer. Mechanical properties of the reaction phases and base metals were studied by using the continuous instrumented micro indentation and conventional Vickers hardness testing. The hardness of the tested phases demonstrates a descending order as follows: (i) the Al-Cu-Ti ternary intermetallic reaction layer adjacent to TiAl substrate (ii) the AlCu2Ti intermetallic in the residue AgCu filler (iii) TiAl base metal (iv) steel (v) AgCu residue filler. The mechanical responses of the tested phases, in terms of the indentation depth are consistent with the results of hardness tests: the phases with smaller hardness are always associated with a larger indentation depth. Under the same testing conditions the Young's modulus of the TiAl substrate, Al-Cu-Ti ternary intermetallic layer, AlCu 2Ti intermetallic in the residue AgCu filler, AgCu residue phase, and the steel were determined.
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M3 - Conference contribution
AN - SCOPUS:84862138752
SN - 9781615039753
T3 - IBSC 2012 - Proceedings of the 5th International Brazing and Soldering Conference
SP - 423
EP - 426
BT - IBSC 2012 - Proceedings of the 5th International Brazing and Soldering Conference
T2 - 5th International Brazing and Soldering Conference, IBSC 2012
Y2 - 22 April 2012 through 25 April 2012
ER -