ENHANCEMENT OF MATERIAL PROPERTIES BY MAGNETIC FIELD ASSISTED PHASE TRANSFORMATION

机译：磁场辅助相变的提高材料特性

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Using magnetic field assisted phase transformation, an enhancement of the exchange coupling and hard magnetic properties of melt-spun Nd_2Fe_(14)B/α-Fe-type nanocomposites was achieved by optimizing their nanostructure and morphology. Compared with the Nd_(2.4)Pr_(5.6)Dy_1Fe_(84)Mo_1B_6 sample annealed without a magnetic field, the magnetic annealing results in a noticeable improvement in the coercivity _iH_c, the remanence 4πM_r, and energy product (BH)_(max) for Nd_(2.4)Pr_(5.6)Dy_1Fe_(84)Mo_1B_6 alloys. (BH)_(max) at 50 K was enhanced by 43.7% after magnetic annealing in a 19 T field. The kink in the demagnetization curve disappeared and, additionally, a much better squareness of the demagnetization curves was observed in the magnetically annealed samples.

机译：使用磁场辅助相变，通过优化纳米结构和形态来实现熔融纺丝ND_2FE_（14）B /α-Fe型纳米复合材料的交换耦合和硬磁性的增强。与ND_（2.4）PR_（5.6）DY_1FE_（84）MO_1B_6样品相比而在没有磁场的情况下退火，磁性退火导致矫顽力_IH_C的显着改进，即剩磁4πm_R和能量产品（BH）_（MAX）对于ND_（2.4）PR_（5.6）DY_1FE_（84）MO_1B_6合金。在19 T场中的磁性退火后，在50 k时增强了50 k的（BH）_（最大值），增强了43.7％。在退磁曲线中的扭结消失了，并且另外，在磁性退磁的样品中观察到不磁化曲线的更好的巨大性。

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《International Workshop on Materials Analysis and Processing in Magnetic Fields》|2005年||共10页
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B.Z. CUI; K. HAN; H. GARMESTANI; H.J. SCHNEIDER-MUNTAU; J.H. SU; J.P. LIU;
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中图分类 O482.5-532;
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