Magneto-Abrasive Materials

T. F. Grigoreva; S. A. Kovaleva; V. I. Zhornik; N. S. Khomich; T. Yu. Kiseleva; E. T. Devyatkina; S. V. Vosmerikov; P. A. Vityaz; N. Z. Lyakhov

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Magneto-Abrasive Materials

机译：磁磨料材料

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Magneto-abrasive materials, obtained via the joint mechanical activation of magnetic (metal) and abrasive (diamond, silicon carbide) components in a high-energy planetary-type ball mill, are studied by means of XRD phase analysis and optical and scanning-electron microscopy. It is shown that a metallomatrix structure forms in an Fe/diamond system after only 10 min of mechanical activation. Diamond particles are ground from 40–50 μm to 0.5–3 μm and distributed over the volume of the iron matrix. Study of the abrasive properties of Fe/silicon carbide composite applied to zirconium alloy shows that an Fe/SiC composite obtained via 10 min of mechanical activation ensures the greatest reduction in the weight of the material and the lowest level of roughness.

机译：通过XRD相分析和光学和扫描 - 电子通过高能行星型球磨机中的磁性（金属）和磨料（金刚石）和磨料（金刚石，碳化硅）部件的接头机械激活而获得的磁磨料材料显微镜。结果表明，在仅10分钟的机械激活后，在Fe /金刚石系统中形成了金属涂层结构。金刚石颗粒接地为40-50μm至0.5-3μm，并分布在铁基质的体积上。施加到锆合金的Fe /碳化硅复合物的磨料性能的研究表明，通过10分钟的机械活化获得的Fe / SiC复合物确保了材料重量和最低粗糙度水平的最大降低。

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《Bulletin of the Russian Academy of Sciences. Physics》 |2018年第7期|共5页
作者
T. F. Grigoreva; S. A. Kovaleva; V. I. Zhornik; N. S. Khomich; T. Yu. Kiseleva; E. T. Devyatkina; S. V. Vosmerikov; P. A. Vityaz; N. Z. Lyakhov;
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Institute of Solid State Chemistry and Mechanochemistry Siberian Branch Russian Academy of Sciences;

Joint Institute of Mechanical Engineering National Academy of Sciences of Belarus;

Joint Institute of Mechanical Engineering National Academy of Sciences of Belarus;

Joint Institute of Mechanical Engineering National Academy of Sciences of Belarus;

Department of Physics Moscow State University;

Institute of Solid State Chemistry and Mechanochemistry Siberian Branch Russian Academy of Sciences;

Institute of Solid State Chemistry and Mechanochemistry Siberian Branch Russian Academy of Sciences;

Joint Institute of Mechanical Engineering National Academy of Sciences of Belarus;

Institute of Solid State Chemistry and Mechanochemistry Siberian Branch Russian Academy of Sciences;

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正文语种 eng
中图分类物理学;
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专利

1. Magneto-Abrasive Materials [J] . T. F. Grigoreva, S. A. Kovaleva, V. I. Zhornik, Bulletin of the Russian Academy of Sciences. Physics . 2018,第7期

机译：磁磨料材料
2. CERAMIC PARTICLES FOR THE MAGNETO-ABRASIVE TREATMENT OF METALLIC SURFACES [J] . T. V. Mosina, K. A. Gogaev, V. V. Nepomnyashchii Refractories and Industrial Ceramics . 2012,第5期

机译：磁性磨料处理金属表面的陶瓷颗粒
3. Magneto-abrasive machining for the mechanical preparation of high-speed steel twist drills [J] . B. Karpuschewski, O. Byelyayev, V. S. Maiboroda CIRP Annals . 2009,第1aCDaROM期

机译：磁研磨加工，用于机械制备高速钢麻花钻
4. EQUIPMENT FOR MAGNETO-ABRASIVE FINISHING OF ROLLERBEARING BALLS [C] . Deaconescu T., Deaconescu A. International DAAAM Baltic Conference "INDUSTRIAL ENGINEERING" . 2008

机译：滚动球磁磨料的设备
5. Hybrid materials chemistry: Spectroscopic studies of molecular materials, nanoscale materials and their combinations. [D] . Marlatt, Craig W. 2013

机译：混合材料化学：分子材料，纳米级材料及其组合的光谱研究。
6. Correction: Lyubomirskiy N. et al. Intensive Ways of Producing Carbonate Curing Building Materials Based on Lime Secondary Raw Materials. Materials 2020 Vol. 13 2304 [O] . Nikolai Lyubomirskiy, Aleksandr Bakhtin, Stanisław Fic, 2020

机译：更正：LyubomirskiyN.等。基于石灰二次原料生产碳酸盐固化建筑材料的密集方法。 2020Vol。 132304
7. Figure 6: (A) Tree resulted the standard MP analysis of the 98-loci supermatrix of the Great Apes (Hominidae, Primates, Mammalia) constructed using the modified summary of Lehtonen et al. (2011) (see “Materials and Methods” for the details) and a posteriori rooted relatively Papio (length = 12,092, CI = 0.7877, RI = 0.5597); 34,022 characters are constant, and the number of the parsimony-informative characters is equal to 4,311. MP BS values are provided below branches. The only characters with non-ambiguous value of the outgroup (Papio) have been saved within concatenated alignment; (B) the average consensus tree of the score 0.00084 resulted the analysis of the Hennigian forest of the 5,507 trees derived from the binary representation of the 98-loci supermatrix of the Great Apes (Hominidae, Primates, Mammalia) (see “Materials and Methods” for the details); Papio is assumed to be the best all-plesiomorphic group. “Additional…” FORESTER’s output tree file (see “Materials and Methods” for the details) selected for future analyses; (C) the average consensus tree of the score 0.00090 resulted the analysis of the Hennigian forest of the 5,339 trees derived from the modified binary representation of the 98-loci supermatrix of the Great Apes (Hominidae, Primates, Mammalia) (see 6.I. and “Materials and Methods” for the details), but with all 168 trees, which contain the clade (Homo plus Pan) have been removed from the input forest. “Additional…” FORESTER’s output tree file (see “Materials and Methods”) selected for future analyses. [O] . -1

机译：图6：（A）树导致的标准MP分析的98-基因座的类人猿（人科，灵长类动物，哺乳动物），使用莱赫托宁等人的修改的摘要构成的超级矩阵。（2011）（参见细节“材料和方法”）以及相对植根狒狒后验概率（长度= 12092，CI = 0.7877，RI = 0.5597）; 34022个字符是恒定的，并且简约信息的字符数等于4311。下面提供分支MP BS值。与外类群（狒狒）的非模糊值的唯一的字符已被保存的级联对准内; （B）的得分0.00084的平均一致树导致从巨猿（原始人类，灵长类动物，哺乳动物）的98座超级矩阵的二进制表示获得的5507棵的Hennigian森林的分析（见“材料和方法”为细节）;狒狒被认为是最好的全祖征群。 “其他...” FORESTER的输出树文件（请参阅详细信息“材料和方法”），用于进一步的分析; （C）的分数0.00090的平均一致树导致从98个位点的类人猿（人科，灵长类动物，哺乳动物）的超级矩阵（见6.I的改性二进制表示导出的5339种树木的Hennigian森林的分析以及“材料和方法”的详细说明），但所有168棵，其中包含的分支（智人加PAN）已经从输入林中删除。 “其他...” FORESTER的输出树文件（参见“材料和方法”），用于进一步的分析。

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