Nanoindentation of natural diamond

Philosophical Magazine A Pub Date : 2002-07-01 DOI:10.1080/01418610208235696

Takeshi Sawa, Kohichi Tanaka

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引用次数: 13

Abstract

Abstract This study demonstrates that the plane-strain Young's moduli E* = E/(1 - v 2) of natural diamonds with a weight of less than 0.2 carat can be determined by the technique of nanoindentation, where E is Young's modulus and v is Poisson's ratio. The indentation test with a Berkovich indenter was conducted at loads of 50, 100 and 300 mN for three samples; two were ⟨100⟩ oriented and one was ⟨110⟩ oriented. The indentation curves showed almost an elastic behaviour at 50 mN. We evaluated the E* values by analysing the elastic indentation curves with the removal of the contribution of machine compliances due to the machine frame and the deformation of the mount, which was determined from the data obtained during the unloading of the indentation at loads of 100 and 300 mN. The E* values obtained were 1090 and 1217 GPa for ⟨100⟩- and ⟨110⟩-oriented diamonds respectively. These agree reasonably well with the literature values, 1064 and 1169 GPa respectively, measured by an ultrasonic technique. The value for ⟨100⟩-oriented diamond, E* = 1090 GPa, is recommended to use as the value for the diamond indenter, since the indenter is ordinarily manufactured from a natural diamond with its axis along the ⟨100⟩ direction.

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天然金刚石的纳米压痕

摘要本研究证明了用纳米压痕技术可以测定重量小于0.2克拉的天然金刚石的平面应变杨氏模量E* = E/(1 - v2)，其中E为杨氏模量，v为泊松比。用Berkovich压头对3个样品进行了50、100和300 mN载荷下的压痕试验;两个⟨100⟩的方向，一个⟨110⟩的方向。在50 mN时，压痕曲线几乎表现出弹性行为。我们通过分析弹性压痕曲线来评估E*值，该曲线剔除了由机架和底座变形引起的机器柔度的贡献，这是根据在100和300 mN载荷下卸载压痕时获得的数据确定的。所得的E*值分别为⟨100⟩和⟨110⟩取向的钻石的1090和1217 GPa。这与超声测量的文献值(分别为1064和1169 GPa)相当吻合。⟨100⟩取向的金刚石的值，E* = 1090 GPa，被建议用作金刚石压头的值，因为压头通常由天然金刚石制造，其轴线沿⟨100⟩方向。

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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Philosophical Magazine A

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