Aiming at the problem of weak integration of innovation ability and ideological education of postgraduates in materials major,this paper explores postgraduates’cultivation work under the support of Liaocheng Universi...Aiming at the problem of weak integration of innovation ability and ideological education of postgraduates in materials major,this paper explores postgraduates’cultivation work under the support of Liaocheng University.It is found that the cultivation of the innovation ability of postgraduates in materials can be the realization path and sublimation carrier of ideological education,ideological education can provide spiritual support and methodological guidance for the former,and the organic integration of the two is feasible.Constructing the fit relationship between innovation ability and ideological education,institutionalizing tutor guidance,establishing tutor+counselor+professional teacher communication mechanism,and taking disciplinary competitions as a handhold can achieve the integration of innovation ability cultivation and ideological education of graduate students in materials major.展开更多
Effects of dopant size on the magnetic properties and corrosion behavior of hot-deformed NdFeB with the intergranular additions of nano-TiC were investigated using X-ray diffraction(XRD),X-ray photoelectron spectromet...Effects of dopant size on the magnetic properties and corrosion behavior of hot-deformed NdFeB with the intergranular additions of nano-TiC were investigated using X-ray diffraction(XRD),X-ray photoelectron spectrometer(XPS),scanning electron microscopy(SEM),electrochemical and magnetic measurement technologies.Additions of 50 nm-TiC,unlike 30 nm- and 40 nm-TiC,are found to increase the magnetic energy product and comprehensive magnetic properties,due in main to the improvement of magnet orientation by more strip-shaped Nd-rich phases.Nano-TiC dopants especially with a size of40 nm can increase the electrochemical corrosion resistance of magnets.It is attributed to the hindrance of additives on the reaction channel formation and their barrier effect on the oxidations of Nd and Fe.For 40 nm-TiC doped magnet,the charge transfer resistance in electric double layer structure reaches 15000 Ω·cm^(2) that is one order of magnitude higher than other cases,which is responsible for the lowe st corrosion current density and accordingly the best anti-corrosion properties.展开更多
基金Liaocheng University Graduate Education Teaching Reform Research Project(322091909)。
文摘Aiming at the problem of weak integration of innovation ability and ideological education of postgraduates in materials major,this paper explores postgraduates’cultivation work under the support of Liaocheng University.It is found that the cultivation of the innovation ability of postgraduates in materials can be the realization path and sublimation carrier of ideological education,ideological education can provide spiritual support and methodological guidance for the former,and the organic integration of the two is feasible.Constructing the fit relationship between innovation ability and ideological education,institutionalizing tutor guidance,establishing tutor+counselor+professional teacher communication mechanism,and taking disciplinary competitions as a handhold can achieve the integration of innovation ability cultivation and ideological education of graduate students in materials major.
基金Project supported by the National Natural Science Foundation of China(52174346)Natural Science Foundation of Shandong Province of China(ZR2021ME031)。
文摘Effects of dopant size on the magnetic properties and corrosion behavior of hot-deformed NdFeB with the intergranular additions of nano-TiC were investigated using X-ray diffraction(XRD),X-ray photoelectron spectrometer(XPS),scanning electron microscopy(SEM),electrochemical and magnetic measurement technologies.Additions of 50 nm-TiC,unlike 30 nm- and 40 nm-TiC,are found to increase the magnetic energy product and comprehensive magnetic properties,due in main to the improvement of magnet orientation by more strip-shaped Nd-rich phases.Nano-TiC dopants especially with a size of40 nm can increase the electrochemical corrosion resistance of magnets.It is attributed to the hindrance of additives on the reaction channel formation and their barrier effect on the oxidations of Nd and Fe.For 40 nm-TiC doped magnet,the charge transfer resistance in electric double layer structure reaches 15000 Ω·cm^(2) that is one order of magnitude higher than other cases,which is responsible for the lowe st corrosion current density and accordingly the best anti-corrosion properties.
