Title of article
Effect of strain rate and environment on the mechanical properties of the Ni–19Si–3Nb–0.15B–0.1C intermetallic alloy at high temperatures
Author/Authors
C. C. Fu، نويسنده , , J. S. C. Jang، نويسنده , , L. J. Chang، نويسنده , , T. Y. Lin، نويسنده , , C. M. Kuo، نويسنده ,
Issue Information
دوهفته نامه با شماره پیاپی سال 2007
Pages
8
From page
5327
To page
5334
Abstract
The effect of strain rate and environment on the
mechanical behavior at different temperatures of the Ni–
19Si–3Nb–0.15B–0.1C alloy is investigated by atmosphere-
controlled tensile testing under various conditions
at different strain rates and different temperatures). The
results reveal that the Ni–19Si–3Nb–0.15B–0.1C alloy
exhibits ductile mechanical behavior (UTS ~ 1250 MPa,
e ~ 14%) at temperatures below 873 K under different
atmosphere conditions. However, the alloy without boron
and carbon addition shows ductile mechanical behavior
only when the sample is tested in vacuum. This indicates
that the microalloying of boron and carbon does overcome
the environmental embrittlement from water vapor at test
temperatures below 873 K for the Ni–19Si–3Nb base alloy.
However, the boron and carbon doped alloy still suffers
from embrittlement associated with oxygen at a medium
high temperature (i.e. 973 K). In parallel, both of the
ultimate tensile strength and elongation exhibit quite
insensitive response with respect to the loading strain rate
when tests are held at temperatures below 873 K. However,
the ultimate tensile strength exhibits high dependence on
the strain rate in air at temperatures above 873 K,
decreasing the ultimate tensile strength with decreasing
strain rate.
Journal title
Journal of Materials Science
Serial Year
2007
Journal title
Journal of Materials Science
Record number
833041
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