Mechanical properties of superhard materials synthesized at various pressure-temperature conditions investigated by nanoindentation

ASTA RICHTER; ROGER SMITH; NATALIA DUBROVINSKAIA; EDWARD McGEE

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Mechanical properties of superhard materials synthesized at various pressure-temperature conditions investigated by nanoindentation

机译：通过纳米压痕研究了在各种压力-温度条件下合成的超硬材料的力学性能

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Nanoindentation is applied to synthetic diamond crystals, a chemical vapour deposition (CVD) grown diamond film and to aggregated diamond nanorods produced by high-pressure compression of fullerite. Characteristic load-displacement curves are used to determine the mechanical properties and to classify these materials. Atomistic simulations have also been carried out. The results show that diamond undergoes a mainly elastic deformation during nanoindentation. Both simulations and experiments show that the force exerted on the indenter varies as the depth raised to the power 1.6. Results for the CVD grown diamond films give smaller hardness values than for the diamond crystals. For the diamond nanorods sample, hardness values lie up to those determined for diamond, whereas the elastic modulus can exceed the diamond value.

机译：纳米压痕适用于合成金刚石晶体，化学气相沉积（CVD）生长的金刚石膜以及通过富勒石的高压压缩产生的聚集金刚石纳米棒。载荷-位移曲线用于确定机械性能并对这些材料进行分类。还进行了原子模拟。结果表明，金刚石在纳米压痕过程中主要发生弹性变形。仿真和实验均表明，施加在压头上的力随深度增加到功率1.6而变化。 CVD生长的金刚石薄膜的结果给出的硬度值比金刚石晶体小。对于金刚石纳米棒样品，硬度值可以达到为金刚石确定的硬度值，而弹性模量可以超过金刚石值。

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《High Pressure Research》 |2006年第2期|共11页
作者
ASTA RICHTER; ROGER SMITH; NATALIA DUBROVINSKAIA; EDWARD McGEE;
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正文语种 eng
中图分类高压与高温物理学;
关键词
Nanoindentation; Elastic modulus; Superhard materials; Computer simulation;

机译：纳米压痕弹性模量超硬材料计算机模拟;

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专利

1. Mechanical properties of superhard materials synthesized at various pressure-temperature conditions investigated by nanoindentation [J] . ASTA RICHTER, ROGER SMITH, NATALIA DUBROVINSKAIA, High Pressure Research . 2006,第2期

机译：通过纳米压痕研究了在各种压力-温度条件下合成的超硬材料的力学性能
2. Investigation of novel superhard materials by multi-cycling nanoindentation [J] . Asta Richter, Charles P. Daghlian, Ronald Ries Diamond and Related Materials . 2006,第11a12期

机译：通过多循环纳米压痕研究新型超硬材料
3. An Investigation of Nanomechanical Properties of Materials using Nanoindentation and Artificial Neural Network [J] . Hyuk Lee, Wai Yeong Huen, Vanissorn Vimonsatit, Scientific reports. . 2019,第1期

机译：利用纳米茚地段和人工神经网络研究材料纳米力学性能研究
4. THE BRIDGE BETWEEN THE IDEAL AND REAL MECHANICAL PROPERTIES FOR SUPERHARD MATERIALS [C] . V.V. Brazhkin, A.G. Lyapin, NATO NATO Advanced Research Workshop on Innovative Superhard Materials and Sustainable Coatings . 2005

机译：超硬材料理想和真正的机械性能之间的桥梁
5. Development of nanoindentation techniques for characterizing local mechanical properties of soft materials. [D] . Wood, Charles David. 2013

机译：纳米压痕技术的发展，用于表征软材料的局部机械性能。
6. An Investigation of Nanomechanical Properties of Materials using Nanoindentation and Artificial Neural Network [O] . Hyuk Lee, Wai Yeong Huen, Vanissorn Vimonsatit, -1

机译：基于纳米压痕和人工神经网络的材料纳米力学性能研究
7. An Investigation of Nanomechanical Properties of Materials using Nanoindentation and Artificial Neural Network [O] . Hyuk Lee, Wai Yeong Huen, Vanissorn Vimonsatit, 2019

机译：利用纳米茚地段和人工神经网络研究材料纳米力学性能研究

Mechanical properties of superhard materials synthesized at various pressure-temperature conditions investigated by nanoindentation

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