Analysis of solid lubricating materials microstructures properties in the frame of cylindrical coordinates system and reduced micromorphic model

IF 2.1 4区材料科学 Q2 MATERIALS SCIENCE, CHARACTERIZATION & TESTING

Mechanics of Time-Dependent Materials Pub Date : 2024-09-16 DOI:10.1007/s11043-024-09734-z

A. R. El-Dhaba, H. K. Awad, S. M. Mousavi

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Abstract

In this paper, we provide detailed variational formulations for the reduced micromorphic model in rectangular and cylindrical coordinates. In these formulations, the material is modeled as consisting of deformable particles that exhibit microstrain and macroscopic strain fields. This microstrain field is independent of the macroscopic strain field of the entire material. In addition, all the kinematical and kinetical variables, equations of motion, and boundary conditions are formulated depending on the displacement and microstrain fields. Here we define the conditions that give the reduced micromorphic model with decoupled equations of motion such that the displacement field is described as independent of the microstrain field. In addition, we show the applicability of the developed formulation to investigate the simple shear behavior of solid-lubricant cylindrical films. An analytical solution for this model is developed, and numerical results are represented to demonstrate the microstructural topology effects on the mechanics of the lubricant film. The formulations and revealed findings of the present study are important for the design of novel coating architectures materials.

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在圆柱坐标系和还原微形态模型框架下分析固体润滑材料的微观结构特性

在本文中，我们为矩形坐标和圆柱坐标下的还原微观模型提供了详细的变分公式。在这些公式中，材料被模拟为由可变形颗粒组成，这些颗粒表现出微应变场和宏观应变场。微应变场与整个材料的宏观应变场无关。此外，所有运动学和动力学变量、运动方程和边界条件都是根据位移和微应变场制定的。在这里，我们定义了具有解耦运动方程的简化微形态模型的条件，从而使位移场的描述与微应变场无关。此外，我们还展示了所开发的公式在研究固体润滑剂圆柱形薄膜的简单剪切行为时的适用性。我们开发了该模型的解析解，并用数值结果表明了微结构拓扑对润滑油膜力学的影响。本研究的配方和揭示的结论对于新型涂层结构材料的设计非常重要。

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来源期刊

Mechanics of Time-Dependent Materials 工程技术-材料科学：表征与测试

CiteScore

4.90

自引率

8.00%

发文量

审稿时长

>12 weeks

期刊介绍： Mechanics of Time-Dependent Materials accepts contributions dealing with the time-dependent mechanical properties of solid polymers, metals, ceramics, concrete, wood, or their composites. It is recognized that certain materials can be in the melt state as function of temperature and/or pressure. Contributions concerned with fundamental issues relating to processing and melt-to-solid transition behaviour are welcome, as are contributions addressing time-dependent failure and fracture phenomena. Manuscripts addressing environmental issues will be considered if they relate to time-dependent mechanical properties. The journal promotes the transfer of knowledge between various disciplines that deal with the properties of time-dependent solid materials but approach these from different angles. Among these disciplines are: Mechanical Engineering, Aerospace Engineering, Chemical Engineering, Rheology, Materials Science, Polymer Physics, Design, and others.