Papers by Author: W.T. Liu

Abstract: The microdefects, magnetic magnetization curves and electric characters of Fe_100-xGa_x (x=16, 17, 18, 19, 20) were investigated by the means of X-ray diffraction, VSM modular on PPMS, positron lifetime spectroscopy and electric paramagnetic resonance spectroscopy. The X – ray diffraction patterns show that the Fe_100-xGa_x alloys is similar to that of α – Fe, but the peaks move to low angle slightly. The result indicates Ga entered the iron lattice and the larger radium lead to the changing of the patterns. Positron lifetime spectra show that the intensity of the defects of the Fe_100-xGa_x alloys varies obviously with different Ga content. The magnetizing curves were measured to check the saturation magnetization at room temperature. The variations of saturation magnetization do not monotonic decrease as expect with the increasing of Ga. When x=18, the magnetization is maximum; the minimum is x=20 because of the lowest iron content. The electron paramagnetic resonance spectrum shows that the peaks become narrower when the x decreases from 20 to 16. These results indicate that the addition of Ga has effect on the 3d electrons of Fe.

Abstract: The grain size and its identity of abrasives are of high importance to obtain the damage-free and low roughness surfaces in traditional polishing processes. The undesirable scratches will appear on the surface of workpiece, if the grain size of abrasives is of high decentralization, or some abnormal larger grains or impurities are interfused in polishing process. And it is very difficult to polish curved surfaces. A new polishing technology, which is called as polishing with flotative abrasive balls, is put forward in this paper, in order to solve the problems mentioned above. Some primary experiments and theoretical analyses are carried out. It is found that the contact pressure between workpiece and abrasive grains may be easily controlled, as a result, the depth of cutting may also be easily controlled and it is not sensitive to the grain size of abrasives. The new technology may also be used in the polishing of curved surfaces.