TY - GEN
T1 - Influences of elastic stress and interfacial kinetic barrier on phase evolution paths of thin-film diffusion couples
AU - Huh, Joo Youl
AU - Hong, Jong Pa
PY - 2006
Y1 - 2006
N2 - An explicit, finite difference scheme was used to examine the effects of coherency stresses and interface kinetic barriers on the phase evolution of a binary, thin-film diffusion couple. Thin-films, initially consisting of alternating layers of two terminal phases, a and y, were held at a temperature at which the formation of an intermediate phase, β at α/γ interface was thermodynamically probable. When either the coherency stresses or interface kinetic barriers are present, the interfacial compositions become time-dependent and, thus, the formation of the thermodynamically stable β phase can be kinetically prohibited at the early stage of the evolution. Even if the initial α/γ thin-films have the same overall composition, the coherency constraint can result in different final equilibrium states depending on either the initial compositions of the a and y phases or the relative magnitudes of the interfacial kinetic barriers. When both the coherency constraint and interfacial kinetic barriers are present, an intermediate phase can repeatedly form and disappear during the evolution.
AB - An explicit, finite difference scheme was used to examine the effects of coherency stresses and interface kinetic barriers on the phase evolution of a binary, thin-film diffusion couple. Thin-films, initially consisting of alternating layers of two terminal phases, a and y, were held at a temperature at which the formation of an intermediate phase, β at α/γ interface was thermodynamically probable. When either the coherency stresses or interface kinetic barriers are present, the interfacial compositions become time-dependent and, thus, the formation of the thermodynamically stable β phase can be kinetically prohibited at the early stage of the evolution. Even if the initial α/γ thin-films have the same overall composition, the coherency constraint can result in different final equilibrium states depending on either the initial compositions of the a and y phases or the relative magnitudes of the interfacial kinetic barriers. When both the coherency constraint and interfacial kinetic barriers are present, an intermediate phase can repeatedly form and disappear during the evolution.
KW - Coherency stresses
KW - Interfacial kinetic barrier
KW - Numerical simulation
KW - Phase evolution path
KW - Thin-film diffusion couple
UR - http://www.scopus.com/inward/record.url?scp=37549020268&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=37549020268&partnerID=8YFLogxK
U2 - 10.4028/3-908451-25-6.405
DO - 10.4028/3-908451-25-6.405
M3 - Conference contribution
AN - SCOPUS:37549020268
SN - 9783908451259
T3 - Solid State Phenomena
SP - 405
EP - 412
BT - Heat Treatment of Materials, AHTM ' 05 - Proceedings of the 3rd Asian Conference on Heat Treatment of Materials
PB - Trans Tech Publications Ltd
T2 - 3rd Asian Conference on Heat Treatment of Materials,(AHTM '05)
Y2 - 10 November 2005 through 12 November 2005
ER -