Microstructure Characteristics, Mechanical and Corrosion Properties of Copper Alloyed Hypo-Eutectic Grey Cast Iron

Saudi Journal of Civil Engineering Pub Date : 2023-11-05 DOI:10.36348/sjce.2023.v07i10.002

Kutelu Kutelu, Bolarinwa Johnson, Ogundeji Francis Oladapo, Oke-Samuel Olugbenga

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Abstract

In this study, influence of varied copper addition on the mechanical properties and corrosion characteristics of grey cast iron (GCI) was investigated. As-cast unalloyed and 0.035 wt. %, 0.65 wt. % 0.85 wt. % and 1.18 wt. % copper alloyed GCI samples were produced using rotary furnace. Chemical compositions of the samples were determined by Optical Emission Spectroscopy using ARL QuantoDeskSpectro analysis machine. Tensile and hardness measurements were made using INSTRON tensile testing machine- model 3369 and Universal Rockwell hardness testenr- model 8187LKV respectively. Samples’ characterization was done using Philips SEM (XL30 TMP). And electrochemical measurement was determined using AUTOLAB PGSTAT 204N instrument. From the results, the as-cast unalloyed, 0.035 wt. % and 0.85 wt. % and 1.18 wt. % Cu alloyed GCI samples revealed lamella graphite in pearlite matrix, short flake graphite in pearlitic-ferrritic matrix, Type A flake graphite in pearlitic-ferritic matrix and long flake graphite in ferritic-pearlitic matrix respectively. Tensile, hardness and elongation properties of the copper GCI samples ranked superior over the as-cast unalloyed GCI sample. Optimum tensile value 158.26 N/mm2 and hardness value 447.4 HRC were revealed by the 0.85 wt. % Cu, and optimum ductility value of 2.79% was revealed by the 1.18 wt. % Cu alloyed GCI sample. In general, copper alloyed GCI samples showed better corrosion resistance relative to the as-cast unalloyed GCI sample. The copper alloyed GCI samples showed better corrosion resistance relative as compared to the as-cast unalloyed GCI sample. Least corrosion rate of 0.0011297 mm/yr with polarization resistance of 174.58 Ω was revealed by the 0.85 wt. % Cu alloyed GCI sample. Hence, it is most suitable in application requiring high to moderate strength is marine environment.

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铜合金低共晶灰铸铁的微观结构特征、机械性能和腐蚀性能

本研究调查了不同铜添加量对灰铸铁（GCI）机械性能和腐蚀特性的影响。使用回转炉生产了无合金、0.035 重量%、0.65 重量%、0.85 重量% 和 1.18 重量% 的铜合金 GCI 样品。使用 ARL QuantoDeskSpectro 分析仪通过光学发射光谱测定样品的化学成分。拉伸和硬度测量分别使用 INSTRON 3369 型拉伸试验机和 Universal Rockwell 8187LKV 型硬度计进行。样品的表征使用飞利浦 SEM（XL30 TMP）进行。电化学测量使用 AUTOLAB PGSTAT 204N 仪器进行。从结果来看，未合金、0.035 重量%、0.85 重量% 和 1.18 重量%铜合金 GCI 样品分别在珠光体基体中显示出片状石墨，在珠光体-铁素体基体中显示出短片状石墨，在珠光体-铁素体基体中显示出 A 型片状石墨，在铁素体-珠光体基体中显示出长片状石墨。铜 GCI 样品的拉伸、硬度和伸长性能均优于铸造的非合金 GCI 样品。0.85 wt. % 铜的最佳拉伸值为 158.26 N/mm2，硬度值为 447.4 HRC，1.18 wt. % 铜合金 GCI 样品的最佳延展值为 2.79%。总的来说，铜合金 GCI 样品的耐腐蚀性优于铸造时的非合金 GCI 样品。铜合金 GCI 样品的耐腐蚀性优于铸造后的非合金 GCI 样品。0.85 wt. % 铜合金 GCI 样品的腐蚀速率最小，为 0.0011297 mm/yr，极化电阻为 174.58 Ω。因此，它最适用于海洋环境中要求高至中等强度的应用。

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Saudi Journal of Civil Engineering

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