China Science

The texture, microstructure and mechanical behavior of bulk ultrafine-grained (ufg) Zr fabricated by accumulative roll bonding (ARB) is investigated by electron backscatter diffraction, transmission electron microscopy and mechanical testing. A reasonably homogeneous and equiaxed ufg structure, with a large fraction of high angle boundaries (HABs, 70%), can be obtained in Zr after only two ARB cycles. The average grain size, counting only HABs (? > 15°), is 400 nm. (Sub)grain size is equal to 320 nm. The yield stress and UTS values are nearly double those from conventionally processed Zr with only a slight loss of ductility. Optimum processing conditions include large thickness reductions per pass (? 75%), which enhance grain refinement, and a rolling temperature (T 0.3Tm) at which a sufficient number of slip modes are activated, with an absence of significant grain growth. Grain refinement takes place by geometrical thinning and grain subdivision by the formation of geometrically necessary boundaries. The formation of equiaxed grains by geometric dynamic recrystallization is facilitated by enhanced diffusion due to adiabatic heating.

L. Jianga?M.T. Pérez-PradoaEmail:tpprado@cenim.csic.es?P.A. Gruberc?E. Arztc?O.A. Ruanoa?M.E. Kassnerb
[a]Department of Physical Metallurgy, National Center for Metals Research (CENIM), CSIC, Avda. de Gregorio del Amo, 8, 28040 Madrid, Spain;[b]Department of Aerospace; Mechanical Engineering, University of Southern California, 3650 McClintock Ave, Los Angeles, CA 90089-1453, USA;[c]Max Planck Institute for Metals Research, Heisenberg Strasse 3, 70569 Stuttgart, Germany;[d]Institute for Physical Metallurgy, Universitt Stuttgart, Heisenberg Strasse 3, 70569 Stuttgart, Germany ;[1] Current address: INM Leibniz Institute for New Materials, Campus D2 2, 66123 Saarbrücken, Germany.