Mechanical property of nanoscale ZnO/Al2O3 multilayers: An investigation by nano-indentation

Xiu-Qin Wang, Jianning Ding, N. Yuan, G. Cheng, Yuanyuan Zhu, B. Kan
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引用次数: 1

Abstract

Nanoscale ZnO/Al2O3 multilayers were prepared on Silicon substrates by atomic layer deposition (ALD) method at 200°C. To understand the size effect of ZnO nanoscale layers on hardness, the mechanical properties of the ZnO/Al2O3 multilayers were investigated using nano-indentation technique. As the bilayer period decreases from 60 to 2 nm, the micro-structures of ZnO layers changed from polycrystalline to amorphous. In the bilayer period interval of 60 to 6 nm, the variation of hardness versus bilayer period is similar to Hall-Patch relation, with maximum hardness and elastic modulus of ~10.69GPa and ~138.1GPa, respectively. However when the bilayer period is smaller than 6 nm, the nanolaminates became softer than the single ZnO film.
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纳米ZnO/Al2O3多层膜的力学性能:纳米压痕研究
采用原子层沉积法(ALD)在200℃下在硅衬底上制备了纳米ZnO/Al2O3多层膜。为了了解ZnO纳米层的尺寸对硬度的影响,采用纳米压痕技术研究了ZnO/Al2O3多层膜的力学性能。随着双层周期从60 nm减小到2 nm, ZnO层的微观结构由多晶变为非晶。在60 ~ 6 nm的双层周期区间内,硬度随双层周期的变化与Hall-Patch关系相似,硬度最大值为~10.69GPa,弹性模量最大值为~138.1GPa。然而,当双层周期小于6 nm时,纳米复合材料比单一ZnO薄膜更柔软。
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