Synthesis and Characterization of In-Situ AA8011-TiB2 Composites Produced by Flux Assisted Synthesis

IF 0.6 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY
M. S. B. Munivenkatappan, S. Shanmugam, A. Veeramani
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引用次数: 2

Abstract

Received: 2 January 2020 Accepted: 17 August 2020 In-situ aluminium alloy 8011 matrix composites containing different weight percentages of titanium diboride were synthesized by flux assisted synthesis using stir casting technique. The metallurgy of the in-situ AA8011-TiB2 composites was analyzed using X-ray diffractometer, scanning electron microscope and energy dispersive spectroscope to disseminate the formation and distribution of reinforcements. Density, microhardness and tensile strength of cast AA8011 and in-situ AA8011-TiB2 composites were measured and analyzed. The in-situ formed TiB2 reinforcements showed the maximum hardness of 55.03 Hv and the maximum tensile strength of 158.2 MPa for 8 wt. % of TiB2 whereas the percentage elongation of 7.2% is observed at 4 wt. % of TiB2. Further, the fractography analysis performed on the fractured tensile samples and the mechanism of failures were identified and reported.
助熔剂原位合成AA8011-TiB2复合材料的合成与表征
采用搅拌铸造技术,采用助熔剂辅助合成方法,原位合成了含不同重量百分比二硼化钛的8011铝合金基复合材料。采用x射线衍射仪、扫描电镜和能量色散光谱仪对原位AA8011-TiB2复合材料的冶金过程进行了分析,研究了增强体的形成和分布。对铸态AA8011和原位AA8011- tib2复合材料的密度、显微硬度和抗拉强度进行了测试和分析。当TiB2质量分数为8 wt. %时,原位成形TiB2增强体的最大硬度为55.03 Hv,最大抗拉强度为158.2 MPa,而当TiB2质量分数为4 wt. %时,原位成形TiB2增强体的伸长率为7.2%。此外,对断裂的拉伸试样进行了断口分析,确定并报告了失效机制。
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来源期刊
Annales De Chimie-science Des Materiaux
Annales De Chimie-science Des Materiaux 工程技术-材料科学:综合
CiteScore
1.70
自引率
25.00%
发文量
33
审稿时长
>12 weeks
期刊介绍: The ACSM is concerning the cutting-edge innovations in solid material science. The journal covers a broad spectrum of scientific fields, ranging all the way from metallurgy, semiconductors, solid mineral compounds, organic macromolecular compounds to composite materials. The editorial board encourages the submission of original papers that deal with all aspects of material science, including but not limited to synthesis and processing, property characterization, reactivity and reaction kinetics, evolution in service, and recycling. The papers should provide new insights into solid materials and make a significant original contribution to knowledge.
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