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纳米硬质薄膜的研究进展 总被引:3,自引:0,他引:3
介绍了纳米硬质薄膜的概念、设计思想、超硬机制、制备技术及工艺、性能、应用前景,综述了近几年来国内外纳米硬质薄膜材料研究的最新进展,对纳米硬质薄膜的发展趋势提出了一些看法。 相似文献
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The quenching, fracture and aging treatment of radially oriented Sm2Co17 ring magnets were investigated. The results indicate that the ring magnets have obvious anisotropy of thermal expansion, which easily leads to the splits of the magnets during quenching. The fracture is brittle cleavage fracture. The difference (Aa) of the expansion coefficient reaches the maximum value at 800-850 ℃. So, various quenching processes at different steps are adopted in order to reduce the splits. When the magnets are aged, 1:5 phase precipitates from the 2:17 matrix phase and forms a cellular microstructure with 2:17 phase. BHmax and JHc reach the maximum value 226 kJ/m^3 and 2 170 kA/m after being aged at 850 ℃ for 4 h and 8 h, respectively. The aging treatment at 850 ℃ has little influence on remanence(Br), which can always keep a high value (≥1.0 T). Through appropriate heat treatment, the ring magnets have uniform cellular microstructure and excellent magnetic properties: Br ≥ 1.0T, JHc ≥2 100 kA/m, BHmax ≥ 220 kJ/m^3. 相似文献
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介绍了纳米硬质薄膜的概念、设计思想、超硬机制、制备技术及工艺、性能、应用前景,综述了近几年来国内外纳米硬质薄膜材料研究的最新进展,对纳米硬质薄膜的发展趋势提出了一些看法。 相似文献
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2∶17type Sm(Co ,Cu ,Fe ,Zr)zpermanent mag-nets originatedfromthe investigationinthe 1970s .Sm(Co ,Cu ,Fe ,Zr)zpermanent magnets have excellentintrinsic magnetic properties such as very high Curietemperature , high anisotropy fields , and relativelyhigh saturation magnetizations[1 ~4]. Hence the mag-nets play an i mportant role in national defence andmodernindustry .Because of the high brittleness of Sm(Co ,Cu ,Fe ,Zr)zpermanent magnets ,theirtransfor-mationinto complex,small ,precision … 相似文献
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Sm-Co基整体辐向永磁环的制备及性能 总被引:1,自引:0,他引:1
Sm-Co基整体辐向永磁环由于成型困难及烧结时易于变形和开裂等原因,限制了其应用和发展。为此,本文对Sm(Co,Fe,Cu,Zr):整体辐向永磁环的烧结制备工艺,以及烧结和时效处理对磁体性能、组织结构的影响进行了研究。结果表明:调整合适的烧结工艺,能有效地抑制永磁环缺陷的产生,改善磁体的性能:在1220℃下烧结70min时磁体的性能较好,Br≥1.08T,Hcj≥2200kA/m,(BH)max≥214kJ/m^3;烧结磁体的矫顽力主要与时效工艺有关,时效前磁体主要是2:17型相的过饱和固溶体,在时效过程中析出1:5型相,并逐步形成胞状的显微组织结构,磁体的内禀矫顽力Hcj明显增加,在850℃时效8h,磁体的Hcj可达到2200kA/m以上。如果在850℃时效时间过长,胞状组织会被破坏,磁性能开始恶化。 相似文献