Mechanical response of silver/polyvinyl alcohol thin film: From one-step and cyclic nanoindentation

IF 9.9 Q1 MATERIALS SCIENCE, COMPOSITES

Advanced Industrial and Engineering Polymer Research Pub Date : 2022-07-01 DOI:10.1016/j.aiepr.2021.11.001

Minakshi Jha , Navinchandra G. Shimpi

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引用次数: 5

Abstract

Polymer nanocomposite and its mechanical properties are the area of immense interest for material developers in academia and industry. Present study investigates mechanical behavior of novel hexagonal bipyramidal Silver-Poly (vinyl alcohol) nanocomposites (Ag/PVA NCs) thin film fabricated using aqua-mediated in-situ reduction at room temperature. Specimen was characterized through UV-Visible (λmax = 417 nm), PL (λ(em) = 482 nm), XRD (average crystallite size 29.7 nm and preferential growth of thin film along [111] plane), TEM (hexagonal bipyramidal morphology, size ∼26.25 nm), TGA (increased thermal stability), FTIR (peaks at 945, 604 cm^-1 confirms coordination of Ag and PVA matrix) and SAED. Depth sensing single-step and multi-step nanoindentation was employed to extract material’s sensitive mechanical property. Hardness (H: 0.352 to 0.192 GPa) and elastic modulus (Er: 8.718 to 6.72GPa) decreased with increasing single-step loads (from 50 μN to 10 mN), which can be attributed to indentation size effect (ISE). Cyclic nanoindentation (p∼5 mN, 23 cycles) was performed to deeply understand material sensitive degree of dislocation-structure interaction for fatigue analysis. The reduction in % elastic recovery was found at higher loads. On account of smooth surface, elastic unloading (stiffness) values linearly (y = 1.3944x + 3.8676 with R² = 0.9835) increased from cycle 1 to 23 and contact depth increases linearly (y = 0.0329x + 1.5697, R² = 0.9901) with the number of cycles. Interpretation of p-h profile indicated H and Er decreases with increasing load, along with proceeding cycles and no fracture or breakage/ weakening of NCs / progressive and localized structural damage was observed which evidenced that surface was completely uniform and defect free.

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银/聚乙烯醇薄膜的机械响应:从一步和循环纳米压痕

聚合物纳米复合材料及其力学性能是学术界和工业界材料开发人员非常感兴趣的领域。本文研究了采用水介导原位还原法制备的新型六方双锥体银-聚乙烯醇纳米复合材料(Ag/PVA NCs)薄膜在室温下的力学行为。通过UV-Visible (λmax = 417 nm)、PL (λ(em) = 482 nm)、XRD(平均晶粒尺寸29.7 nm，薄膜沿[111]平面优先生长)、TEM(六方双锥体形貌，尺寸约26.25 nm)、TGA(热稳定性增强)、FTIR(峰位于945、604 cm-1处，证实Ag和PVA基体配位)和SAED对样品进行了表征。采用深度传感单步和多步纳米压痕提取材料的敏感力学性能。硬度(H: 0.352 ~ 0.192 GPa)和弹性模量(Er: 8.718 ~ 6.72GPa)随单步载荷(50 μN ~ 10 mN)的增加而降低，这主要归因于压痕尺寸效应(ISE)。通过循环纳米压痕(p ~ 5 mN, 23次循环)深入了解材料的位错-结构相互作用的敏感程度，用于疲劳分析。在较高的载荷下发现弹性回复率降低。由于表面光滑，从循环次数1到23，弹性卸载(刚度)值线性增加(y = 1.3944x + 3.8676, R2 = 0.9835)，接触深度随循环次数线性增加(y = 0.0329x + 1.5697, R2 = 0.9901)。p-h剖面的解释表明，H和Er随着载荷的增加而降低，随着循环的进行，没有观察到断裂或断裂/ nc减弱/渐进和局部结构损伤，这表明表面完全均匀且无缺陷。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Advanced Industrial and Engineering Polymer Research Materials Science-Polymers and Plastics

CiteScore

26.30

自引率

0.00%

发文量

审稿时长

29 days