纳米压痕
材料科学
软化
陶瓷
应变硬化指数
拉伤
复合材料
硬化(计算)
氮化物
冶金
图层(电子)
医学
内科学
作者
Uldis Kanders,Karlis Kanders,Ernests Jansons,Irīna Boiko,Artis Kromanis,Jānis Lungevičs,Armands Leitāns
出处
期刊:Coatings
[Multidisciplinary Digital Publishing Institute]
日期:2025-06-01
卷期号:15 (6): 674-674
被引量:1
标识
DOI:10.3390/coatings15060674
摘要
This study investigates the nanomechanical and tribological behavior of multilayered nitride/carbonitride nanostructured superlattice type coatings (NTCs) composed of alternating TiAlSiNb-N and TiCr-CN sublayers, deposited via high-power ion-plasma magnetron sputtering (HiPIPMS) technique. Reinforced with refractory elements Cr and Nb, the NTC samples exhibit high nanohardness (39–59 GPa), low friction, and excellent wear resistance. A novel analytical approach was introduced to extract stress–strain field (SSF) gradients and divergences from nanoindentation data, revealing alternating strain-hardening and strain-softening cycles beneath the incrementally loaded indenter. The discovered oscillatory behavior, consistent across all samples under the investigation, suggests a general deformation mechanism in thin films under incremental loading. Fourier analysis of the SSF gradient oscillatory pattern revealed a variety of characteristic dominant wavelengths within the length-scale interval (0.84–8.10) nm, indicating multi-scale nanomechanical responses. Additionally, the NTC samples display an anisotropic coating morphology exhibited as unidirectional undulating surface roughness waves, potentially attributed to atomic shadowing, strain-induced instabilities, and limited adatom diffusion. These findings deepen our understanding of nanoscale deformation in advanced PVD coatings and underscore the utility of SSF analysis for probing thin-film mechanics.
科研通智能强力驱动
Strongly Powered by AbleSci AI