Effect of Scrap Impurities on Microstructure and Mechanical Properties of Zr Alloys

Journal of Korea Foundry Society Pub Date : 2016-06-30 DOI:10.7777/JKFS.2016.36.3.81

Gu Beom Jeong, I. Kim, J. Song, P. Shin, S. Hong

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Abstract

In this study, the effect of scrap ratio on the mechanical properties of Zr alloys was studied. Oxygen content in the ingot cake increased rapidly with increasing fraction of scrap, which can be attributed to the surface oxide of scrap including small pieces of turning, chips, etc. Iron content did not increase much with the increasing addition of scrap, suggesting scrap materials was well reserved in the iron-free container. As-cast structure of Zr alloy with the scrap:sponge ratio displayed plate/or needle α phase and no appreciable change of the cast structure was observed with change of scrap fraction. The strength increases with increasing fraction of scrap, which can be attributed to the increase of oxygen content. The ductility decreased slightly with increase of scrap fraction. Dislocation-oxygen interaction is known to increase the strength at the expense of ductility. Ingot cake with intentionally added Fe2O3 exhibited the drastic decrease of the formability, even exhibited the brittle fracture behavior during rolling. The oxidation resistance, however, increased with the increase of scrap fraction because of high oxygen content, which may prevent more penetration and diffusion of oxygen into matrix.

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废屑杂质对Zr合金组织和力学性能的影响

本文研究了废品率对Zr合金力学性能的影响。钢锭饼中氧含量随着废钢掺量的增加而迅速增加，这是由于废钢包括车削小块、切屑等表面氧化所致。铁含量随废料添加量的增加并没有增加太多，说明废料在无铁容器中得到了很好的保留。废海绵比下Zr合金的铸态组织呈现板状或针状α相，随废海绵比的变化铸态组织无明显变化。强度随废料掺量的增加而增加，这与氧含量的增加有关。随着废料掺量的增加，塑性略有下降。众所周知，位错-氧相互作用以牺牲延性为代价来提高强度。有意添加Fe2O3的锭饼在轧制过程中成形性急剧下降，甚至表现出脆性断裂行为。然而，由于高氧含量的存在，随着废料分数的增加，抗氧化性增加，这可能会阻止氧更多地渗透和扩散到基体中。

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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Journal of Korea Foundry Society

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