论文信息 - Chemical short-range order in liquid and amorphous Cu66Ti34 alloys

Chemical short-range order in liquid and amorphous Cu66Ti34 alloys

It is demonstrated that the chemical short-range order (CSRO) which exists in the transition-metal glass Cu66Ti34 originates in the liquid state, and that this CSRO appears to be enhanced on vitrification. The structure factor S(Q) of the liquid alloy Cu66Ti34 has been obtained by neutron diffraction. The form of S(Q), and in particular the existence of a 'prepeak' at a Q value of approximately 1.9 AA-1, provides direct experimental evidence of CSRO in the liquid state. A comparison of the S(Q) curves of Cu66Ti34 for the liquid and glass states indicates that the CSRO is less well developed in the liquid. This qualitative analysis is supported by a rough estimate of the value of the CSRO parameter, alpha , which appears to be reduced by a factor of about two in the liquid state.

M. Sakata | H. Davies | N. Cowlam

[1] C. Wagner,et al. Observation of chemical short-range order in an amorphous Ni40Ti60 alloy , 1980 .

[2] L. Turban,et al. Ising spin glasses in the effective-interaction-approximation , 1980 .

[3] Hung Chen. REVIEW ARTICLE: Glassy metals , 1980 .

[4] M. Sakata,et al. Neutron diffraction measurement of the structure factor of a CuTi metallic glass , 1979 .

[5] Kenji Suzuki,et al. Short-Range Structures of Amorphous and Liquid Iron and Pd_ -Si_ Alloy , 1976 .

[6] D. E. Thornton,et al. Structural Aspects of the Electrical Resistivity of Binary Alloys , 1970 .

[7] J. M. Cowley,et al. An Approximate Theory of Order in Alloys , 1950 .