Superhard B-C-N materials synthesized in nanostructured bulks

Y. Zhao; D.W. He; L.L. Daemen; T.D. Shen; R.B. Schwarz; Y. Zhu; D.L. Bish; J. Huang; J. Zhang; G. Shen; J. Qian; T.W. Zerda

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Superhard B-C-N materials synthesized in nanostructured bulks

机译：纳米结构体中合成的超硬B-C-N材料

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We report here the high-pressure synthesis of well-sintered millimeter-sized bulks of superhard BC_2N and BC_4N materials in the form of a nanocrystalline composite with diamond-like amorphous carbon grain boundaries. The nanostructured superhard B-C-N material bulks were synthesized under high P-T conditions from amorphous phases of the ball-milled molar mixtures. The synthetic B-C-N samples were characterized by synchrotron x-ray diffraction, high-resolution transmission electron microscope, electron energy-loss spectra, and indentation hardness measurements. These new high-pressure phases of B-C-N compound have extreme hardnesses, second only to diamond. Comparative studies of the high P-T synthetic products of BC_2N, BC_4N, and segregated phases of diamond + cBN composite confirm the existence of the single B-C-N ternary phases.

机译：我们在这里报告高压合成超硬BC_2N和BC_4N毫米大小的块状烧结体，其形式为具有类金刚石无定形碳晶界的纳米晶复合材料。纳米结构的超硬B-C-N材料块是在高P-T条件下从球磨摩尔混合物的非晶相合成的。合成的B-C-N样品通过同步加速器X射线衍射，高分辨率透射电子显微镜，电子能量损失谱和压痕硬度测量进行表征。这些新的B-C-N化合物高压相具有极高的硬度，仅次于金刚石。对BC_2N，BC_4N和金刚石+ cBN复合材料的分离相的高P-T合成产物的比较研究证实了单个B-C-N三元相的存在。

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《Journal of Materials Research》 |2002年第12期|p.3139-3145|共7页
作者
Y. Zhao; D.W. He; L.L. Daemen; T.D. Shen; R.B. Schwarz; Y. Zhu; D.L. Bish; J. Huang; J. Zhang; G. Shen; J. Qian; T.W. Zerda;
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Los Alamos National Laboratory, Los Alamos, New Mexico, 87545;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类工程材料学;
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机译：超硬B-C-N材料在纳米结构体积中合成

Superhard B-C-N materials synthesized in nanostructured bulks

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