The toughness evaluation of CrBN coatings doped with Ni or Cu by experiment and FEM

Figure. Combination of experimental results and simulation results for (a) CrBN-Cu-0.4 (b) CrBN-Cu-1.6 coatings and (c) schematic diagram of stress extraction line and (d) variation of principle stress along stress extraction line. [Display omitted] •CrBN-Ni and CrBN-Cu coatings with different Ni or...

Full description

Saved in:
Bibliographic Details
Published in:Applied surface science 2022-10, Vol.599, p.153804, Article 153804
Main Authors: Wang, Qianzhi, Zhou, Mingling, Zhou, Fei, Zhou, Zhifeng, Jin, Xuxin
Format: Article
Language:English
Subjects:
CrBN coating
FEM
Hardness
Ni/Cu doping
Toughness
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Figure. Combination of experimental results and simulation results for (a) CrBN-Cu-0.4 (b) CrBN-Cu-1.6 coatings and (c) schematic diagram of stress extraction line and (d) variation of principle stress along stress extraction line. [Display omitted] •CrBN-Ni and CrBN-Cu coatings with different Ni or Cu contents were deposited.•The toughness of CrBN coatings was improved by Ni or Cu incorporation.•The decreasing degree of sink-in condition was the major inner toughening mechanism. By adjusting the current of NiCr or Cu target (0.4–2.0 A), the CrBN-Ni and CrBN-Cu coatings with different Ni (4.35–19.62 at.%) or Cu contents (3.7–19.06 at.%) were deposited to compare the toughening effect of Ni or Cu. The results showed that as Ni or Cu content increasing, the hardness (H) of CrBN coatings decreased from 38.1 to 11.7 GPa, but the resistance to circle cracks was enhanced. By combining the results of experiments and finite element method (FEM), three reasons contributed to the enhanced resistance to circle cracks. The first and major reason was the weakening degree of sink-in condition. The second reason was the even distribution of tensile stress. The third reason was the enhanced plastic deformation ability after Ni or Cu incorporation. The above results indicated that the good matching of mechanical properties between coating and substrate was prone to resisting cracks.
ISSN:0169-4332
1873-5584
DOI:10.1016/j.apsusc.2022.153804