The influence of the composition on (the load-dependence of) the microhardness of Y–;Si–;Al–;O–;N glasses as measured by Vickers indentation

D. de Graaf; M. Braciszewicz; H. T. Hintzen; M. Sopicka-Lizer; G. de With

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The influence of the composition on (the load-dependence of) the microhardness of Y–;Si–;Al–;O–;N glasses as measured by Vickers indentation

机译：通过维氏压痕法测量，该成分对Y–; Si–; Al–; O–; N玻璃的显微硬度（与负荷有关）的影响

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The hardness of multiple glasses in the Y–;Si–;Al–;O–;N system has been determined as a function of the indentation load. The measured hardness significantly depends on the load, which implies a substantial influence of the indentation size effect (ISE). The measured hardness has been deconvoluted in a load-dependent part and a load-independent hardness using the method of Bull et al. The influence of the overall composition on the hardness of these glasses has been investigated. It is shown that, by increasing the nitrogen content, a load-independent hardness of over 9 GPa can be achieved, which is far higher than most common glass systems.

机译：确定了Y–; Si–; Al–; O–; N系统中多块玻璃的硬度与压痕载荷的关系。测得的硬度很大程度上取决于载荷，这意味着压痕尺寸效应（ISE）的影响很大。使用Bull等人的方法，将测得的硬度分解为依赖于载荷的部分和依赖于载荷的硬度。已经研究了总体组成对这些玻璃硬度的影响。结果表明，通过增加氮含量，可以实现超过9 GPa的独立于负荷的硬度，这远远高于大多数普通玻璃系统。

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《Journal of Materials Science 》 |2004年第6期| 2145-2149| 共5页
作者
D. de Graaf; M. Braciszewicz; H. T. Hintzen; M. Sopicka-Lizer; G. de With;
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Laboratory of Solid-State and Materials Chemistry Eindhoven University of Technology;

Institute of Materials Science Silesian University of Technology;

Laboratory of Solid-State and Materials Chemistry Eindhoven University of Technology;

Institute of Materials Science Silesian University of Technology;

Laboratory of Solid-State and Materials Chemistry Eindhoven University of Technology;

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1. The influence of the composition on (the load-dependence of) the microhardness of Y-Si-Al-O-N glasses as measured by Vickers indentation [J] . de Graaf D., Braciszewicz M., Hintzen HT., Journal of Materials Science . 2004 ,第6期

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The influence of the composition on (the load-dependence of) the microhardness of Y–;Si–;Al–;O–;N glasses as measured by Vickers indentation

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