纳米压痕法研究非晶碳化硅薄膜的断裂韧性

IF 1.9 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY

Advances in Materials Research-An International Journal Pub Date : 2020-03-01 DOI:10.12989/AMR.2020.9.1.049

M. Mamun, A. Elmustafa

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引用次数: 0

摘要

在负载控制（LC）和连续刚度法（CSM）协议中，使用配备有动态控制模块（DCM）的安捷伦XP纳米压头测量了厚度为150、750和1500nm的SiC on Si薄膜的断裂韧性。还测量了硅衬底的断裂韧性。纳米视觉图像表明，薄膜中的凹陷和硅中的深凹导致裂纹在硅衬底处萌生并向上传播到薄膜。测量了SiC/Si的复合断裂韧性，并基于从衬底性质估计薄膜性质的模型确定了SiC薄膜的断裂韧性。测定了SiC薄膜的复合硬度和模量。对于DCM，随着膜厚度从150nm增加到1500nm，硬度从平均35GPa降低到平均13GPa。薄膜的硬度和模量分别描述了硅在12和200GPa深压痕下的硬度和模数，与文献中硅的硬度和模值有很好的相关性。薄膜的断裂韧性值为3.2MPa√m。

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Fracture toughness of amorphus SiC thin films using nanoindentation and simulation

Fracture toughness of SiC on Si thin films of thicknesses of 150, 750, and 1500 nm were measured using Agilent XP nanoindenter equipped with a Dynamic Control Module (DCM) in Load Control (LC) and Continuous Stiffness Method (CSM) protocols. The fracture toughness of the Si substrate is also measured. Nanovision images implied that indentations into the films and well deep into the Si caused cracks to initiate at the Si substrate and propagate upward to the films. The composite fracture toughness of the SiC/Si was measured and the fracture toughness of the SiC films was determined based on models that estimate film properties from substrate properties. The composite hardness and modulus of the SiC films were measured as well. For the DCM, the hardness decreases from an average of 35 GPa to an average of 13 GPa as the film thick increases from 150 nm to 1500 nm. The hardness and moduli of the films depict the hardness and modulus of Si at deep indents of 12 and 200 GPa respectively, which correlate well with literature hardness and modulus values of Si. The fracture toughness values of the films were reported as 3.2 MPa√m.

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来源期刊

Advances in Materials Research-An International Journal MATERIALS SCIENCE, MULTIDISCIPLINARY-

CiteScore

3.50

自引率

27.30%

发文量