Structure micro- and nanomodification by cyclic oxidation-reduction treatment of porous nickel sintered using a space holder

Perspektivnye Materialy Pub Date : 2022-01-01 DOI:10.30791/1028-978x-2022-11-69-82

V. Zelensky

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Abstract

By performing high-temperature cyclic oxidation-reduction (redox) post-treatment of biporous nickel fabricated in the sintering-dissolution process using micron nickel powder and sodium chloride as a space holder, permeable materials with multilevel hierarchical porosity were created. After an oxidation stage in an air atmosphere, a porous material with a core-shell Ni – NiO structure and a cellular underlayer of micron-sized Kirkendall pores was formed. Subsequent reduction in hydrogen led to the formation of a developed nanoporous bumpy surface at sintered nickel particles. The obtained metallic nickel and ceramic nickel-oxide materials contain a hierarchical system of pores of different origin of four types: (a) macropores formed after the removal of the space holder; (b) interparticle micropores remaining due to incomplete sintering of the nickel powder; (c) intraparticle Kirkendall pores created at the oxidation stage and (d) nanopores formed during reduction. Depending on the dispersion of the space holder, the porosity and hydraulic permeability of the nickel samples were 80 – 82 % and 35·10–12 – 101·10–12 m2, respectively.

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利用空间保持器烧结多孔镍的循环氧化还原处理对其结构进行微观和纳米改性

以微米级镍粉和氯化钠为空间保持剂，对烧结-溶解法制备的双孔镍进行高温循环氧化还原后处理，制备出具有多层次孔隙度的渗透材料。在空气中氧化后，形成了具有核壳结构的Ni - NiO多孔材料和微米级Kirkendall孔的细胞下层。随后氢的减少导致在烧结镍颗粒上形成一个发达的纳米多孔凹凸表面。得到的金属镍和陶瓷氧化镍材料含有不同来源的孔隙等级体系，分为四种类型:(a)去除空间支架后形成的大孔隙;(b)由于镍粉未完全烧结而遗留的颗粒间微孔;(c)氧化阶段形成的颗粒内Kirkendall孔和(d)还原过程中形成的纳米孔。根据空间保持器的分散性，镍样品的孔隙度和水力渗透率分别为80 ~ 82%和35·10 ~ 12 ~ 101·10 ~ 12 m2。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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