Tóm tắt
The phase transformation kinetics of high-energy ball-milled monoclinic ZrO2have been studied in detail by Rietveld powder structure refinement analysis. In the present study, no stabilizing compound was required to obtain the cubic phase. The fine-grain powder was milled in a planetary ball mill for up to several hours at different BPMRs (ball to powder mass ratios): 10:1, 20:1, 35:1 and 40:1. During the process of ball milling, the monoclinic phase is gradually transformed to the cubic phase. The relative phase abundances of the respective phases, the particle sizes, the r.m.s. strains, the lattice parameter changes,etc., have been estimated from Rietveld analysis of X-ray powder diffraction data. It has been found that a higher BPMR exerts more influence on rapid phase transformation. In them- toc-ZrO2phase transformation, no formation of an intermediate tetragonal ZrO2phase has been found. The small change in the lattice volume ofm-ZrO2, which is very close to the lattice volume ofc-ZrO2, caused by ball milling may be attributed to this phase change. The formation of thecphase is noticed, in general, after just 1 h of ball milling, and the particle size of themphase is reduced to a large extent at the first stage of milling and remains almost unchanged with increasing milling time. However, the particle size of thecphase increases with increasing milling time for the samples milled with higher BPMRs (35:1 and 40:1), suggesting that quenching caused by a high impact energy followed by an annealing effect may play a vital role, which is further manifested in the agglomeration of small particles.
