烧结铍晶粒边缘强化相形成的研究

A. Revutsky, V. Y. Syrnev, V. Lopatin, O. Semilutskaya, T. Segeda
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摘要

本文介绍了真空热压烧结铍粉末固结过程中晶界状态对烧结铍强度性能影响的研究结果。采用扫描电镜和x射线显微光谱分析研究了分散硬化相氧化铍的形貌、元素组成和结构与烧结铍晶界低熔点杂质含量的关系。基于非晶态氧化铍在金属铍晶界向结晶态(脱氮化)转变的特征,提出了一种新的假说来解释增强粒子形态和结构的差异。理论证实和实验证实,根据硅铝杂质的含量和比例,脱硝机理可以是均相或非均相的。这种差异导致形成精细分散的高强度氧化铍增强颗粒或大的低强度氧化铍团簇。金属铍晶界处增强氧化物颗粒形貌和结构的变化反过来影响真空热成形过程中铍显微组织晶粒生长的动力学,并最终影响烧结铍的分散晶界硬化效果。本文通过对56 μm以下工业热压坯料的力学性能测试,分析了各种因素(杂质含量、杂质比和初始粉末粒度)对热压铍强度性能的影响。利用近似置信度系数对所得规律的充分性进行了评价,并证实了对研究问题进行理论和实验分析所得的结论。统计研究证实了一种综合质量指标的初始粉末,以预测热压铍的强度性能。所得结果为各种目的控制烧结铍的力学性能提供了新的可能性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Research of reinforcement phase formation on the borders of sintered berillium grains
The paper presents the results of studying the effect of the state of grain boundaries (formed in the consolidation of beryllium powders by vacuum hot pressing on the strength properties of sintered beryllium. Scanning electron microscopy and X-ray spectral microanalysis were used to study the dependences of the morphology, elemental composition and structure of a dispersion hardening phase - beryllium oxide – on the content of low-melting impurities at the grain boundaries of sintered beryllium. A new hypothesis is proposed to explain the difference in the morphology and structure of reinforcing particles based on the transition features of amorphous beryllium oxide to a crystalline state (devitrification) at the grain boundaries of metallic beryllium. It is theoretically substantiated and experimentally confirmed that the devitrification mechanism can be homogeneous or heterogeneous depending on the content and ratio of silicon and aluminum impurities. This difference leads to the formation of either finely dispersed high-strength reinforcing particles of beryllium oxide or large, lower-strength oxide clusters. Changes in the morphology and structure of reinforcing oxide particles at the metallic beryllium grain boundaries, in its turn, influence the dynamics of beryllium microstructure grain growth during vacuum hot forming and, ultimately, the effect of dispersed grain-boundary hardening of sintered n beryllium. The paper provides the statistically processed results of testing the mechanical properties of industrial hot-pressed blanks produced of less than 56 μm powders to determine the effect of various factors (the content of impurities, their ratio and particle size of the initial powders) on the strength properties of hot-pressed beryllium. The adequacy of the obtained regularities was evaluated using the approximation confidence coefficients and confirmed the conclusions made in the theoretical and experimental analysis of the research problem. The statistical studies substantiated a comprehensive quality indicator of initial powders in order to predict the strength properties of hot-pressed beryllium. The results obtained substantiate new possibilities for controlling the mechanical properties of sintered beryllium for various purposes.
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