Deformation mechanisms to ameliorate the mechanical properties of novel TRIP/TWIP Co-Cr-Mo-(Cu) ultrafine eutectic alloys
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In: Scientific reports (London : Nature Publishing Group), Vol. 7.2017, 39959, 09.01.2017.
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TY - JOUR
T1 - Deformation mechanisms to ameliorate the mechanical properties of novel TRIP/TWIP Co-Cr-Mo-(Cu) ultrafine eutectic alloys
AU - Kim, J. T.
AU - Hong, Sung Hwan
AU - Park, H. J.
AU - Kim, Y. S.
AU - Suh, J. Y.
AU - Lee, Jin Kyu
AU - Park, J. M.
AU - Maity, Tapabrata
AU - Eckert, Jürgen
AU - Kim, Ki Buem
PY - 2017/1/9
Y1 - 2017/1/9
N2 - In the present study, the microstructural evolution and the modulation of the mechanical properties have been investigated for a Co-Cr-Mo (CCM) ternary eutectic alloy by addition of a small amount of copper (0.5 and 1 at.%). The microstructural observations reveal a distinct dissimilarity in the eutectic structure such as a broken lamellar structure and a well-aligned lamellar structure and an increasing volume fraction of Co lamellae as increasing amount of copper addition. This microstructural evolution leads to improved plasticity from 1% to 10% without the typical tradeoff between the overall strength and compressive plasticity. Moreover, investigation of the fractured samples indicates that the CCMCu alloy exhibits higher plastic deformability and combinatorial mechanisms for improved plastic behavior. The improved plasticity of CCMCu alloys originates from several deformation mechanisms; i) slip, ii) deformation twinning, iii) strain-induced transformation and iv) shear banding. These results reveal that the mechanical properties of eutectic alloys in the Co-Cr-Mo system can be ameliorated by micro-alloying such as Cu addition.
AB - In the present study, the microstructural evolution and the modulation of the mechanical properties have been investigated for a Co-Cr-Mo (CCM) ternary eutectic alloy by addition of a small amount of copper (0.5 and 1 at.%). The microstructural observations reveal a distinct dissimilarity in the eutectic structure such as a broken lamellar structure and a well-aligned lamellar structure and an increasing volume fraction of Co lamellae as increasing amount of copper addition. This microstructural evolution leads to improved plasticity from 1% to 10% without the typical tradeoff between the overall strength and compressive plasticity. Moreover, investigation of the fractured samples indicates that the CCMCu alloy exhibits higher plastic deformability and combinatorial mechanisms for improved plastic behavior. The improved plasticity of CCMCu alloys originates from several deformation mechanisms; i) slip, ii) deformation twinning, iii) strain-induced transformation and iv) shear banding. These results reveal that the mechanical properties of eutectic alloys in the Co-Cr-Mo system can be ameliorated by micro-alloying such as Cu addition.
UR - http://www.scopus.com/inward/record.url?scp=85008881299&partnerID=8YFLogxK
U2 - 10.1038/srep39959
DO - 10.1038/srep39959
M3 - Article
AN - SCOPUS:85008881299
VL - 7.2017
JO - Scientific reports (London : Nature Publishing Group)
JF - Scientific reports (London : Nature Publishing Group)
SN - 2045-2322
M1 - 39959
ER -
