铝合金中氢和氧含量的现状

V. Gnatush, M. Voron
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引用次数: 0

摘要

本文对铝合金中氢和氧化物夹杂物含量与材料各组分相互作用的影响进行了分析。根据科学著作中发表的实验结果,铝合金根据其含氢量可分为以下四类:标称含氢量铝合金;含氢化物形成添加剂的铝合金;高含氢铝合金;含有过量氢(气体)的铝合金。介绍了铝熔体单阶段精炼法和多阶段精炼法,以及铝合金精炼质量控制方法的分类。讨论了含氢化物形成添加剂的铝合金的一些性能特点。介绍了高氢含量对铝合金力学特性影响的研究结果。分析了超高气体含量铝合金(泡沫铝)生产工艺的特点。介绍了铝和铝合金中非金属夹杂物的含量及其测定方法。在综述和分析的基础上,指出有必要对铝合金中氢氧合金/改性金属体系进行全面研究,以阐明铝熔体结晶过程中实现的物理化学和金属物理过程的机理。有必要利用实验计划来建立铝合金样品和产品的氢/氧化物含量、工艺参数和性能之间关系的数学模型。铝合金、氢、氧化物、精炼、改性、非金属夹杂物。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Current aspects of hydrogen and oxygen content in aluminum alloys
The analysis of the scientific researches devoted to questions of influence of the content of hydrogen and oxide inclusions in aluminum alloys in the context of these impurities interaction of with various components of material is presented. Based on the published results of experiments in scientific works, aluminum alloys depending on their hydrogen content can be divided into the following four groups: aluminum alloys with nominal hydrogen content; aluminum alloys containing hydride-forming additives; aluminum alloys with high hydrogen content; aluminum alloys with excess hydrogen content (gas). Information on single- and multistage methods of aluminum melt refining, as well as classification of quality control methods for aluminum alloy refining is presented. Some features of properties of aluminum alloys which contain hydride-forming additives are con-sidered. The results of the study of high hydrogen content on the mechanical characteristics of aluminum alloys are traced. Features of technologies of creation of aluminum alloys with ultrahigh content of gases (foam aluminum) are considered. Information on the content of non-metallic inclusions in aluminum and aluminum alloys and methods for determining their content in the melt is presented. Based on the review and analysis, the need for comprehensive studies of the system hydrogen – oxide – alloying/modifying metals in aluminum alloys is shown to clarify the mechanisms of physicochemical and metal- lophysical processes that are realized in the crystallization of aluminum melts. There is a need to use experimental planning to build mathematical models of the relationship between hydrogen/oxide content, process parameters and properties of samples and products made of aluminum alloys. Aluminum alloys, hydrogen, oxides, refining, modification, non-metallic inclusions.
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