Indentation Size Effect on the Microhardness of Ductile Iron

A. Badmos, W. Soboyejo
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引用次数: 1

Abstract

The indentation size effect on the microhardness of as-rolled ductile iron has been investigated. Vickers microhardness measurements were made at different loads ranging from 10 g to 1000 g. The measured values were analyzed with the popular Nix-Gao’s plasticity model and a microstructural material-length scale parameter was determined. The hardness value was found to decrease with increasing indentation load with the indentation size effect shown to be very pronounced below about 100g and almost negligible above about 300 g. The measured hardness values were shown to be in good agreement with the well-described Nix-Gao strain gradient plasticity model with a material length scale parameter of 5.80 micrometers.
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压痕尺寸对球墨铸铁显微硬度的影响
研究了轧后压痕尺寸对球墨铸铁显微硬度的影响。在10g到1000g的不同载荷下进行维氏显微硬度测量。采用流行的Nix-Gao塑性模型对测量值进行分析,确定了微观结构材料长度尺度参数。硬度值随着压痕载荷的增加而降低,压痕尺寸效应在100g以下非常明显,在300g以上几乎可以忽略不计。测量的硬度值与描述良好的Nix-Gao应变梯度塑性模型(材料长度尺度参数为5.80微米)吻合良好。
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