考虑断裂过程区的新型功能分级材料混合模式断裂准则

IF 5 2区工程技术 Q1 ENGINEERING, MECHANICAL

Theoretical and Applied Fracture Mechanics Pub Date : 2024-10-09 DOI:10.1016/j.tafmec.2024.104710

Sayed Mohammad Hossein Izadi, Mahdi Fakoor, Babak Mirzavand

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引用次数: 0

摘要

基于应变能释放率理论，提出了一种新的 I/II 混合模式断裂准则，用于研究开裂功能分级材料的断裂行为。在这项研究中，假定裂缝位于材料的脆性侧，并沿着材料的梯度分布。在这类材料中，首次考虑了断裂过程区和在该区域耗散的能量，以提高拟议准则的预测精度。利用微裂纹密度参数对损伤区的机械和断裂特性进行了表征。介绍了一种制造功能分级材料的新方法，该方法通过控制树脂的凝胶时间提供了诸多优势。通过三点和四点弯曲试验，确定了制造试样的临界混合模式和纯模式 II 断裂韧性。通过将实验数据与断裂极限曲线进行比较，证明了新提出的标准在研究功能分级材料混合模式断裂方面的有效性。

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A novel mixed mode fracture criterion for functionally graded materials considering fracture process zone

A new mixed mode I/II fracture criterion based on strain energy release rate theory is proposed for investigating fracture behavior in cracked functionally graded materials. In this study, the crack is assumed to be located along the material gradation and within the brittle side of the material. For the first time in this type of material, the fracture process zone and the energy dissipated in this region are considered to enhance the prediction accuracy of the proposed criterion. The mechanical and fracture properties of the damage zone are characterized using the microcrack density parameter. A novel method for manufacturing functionally graded materials is introduced, offering numerous advantages by controlling the gel time of the resin. The critical mixed mode and pure mode II fracture toughness of the fabricated specimens are determined through three-point and four-point bending tests. A comparison of the experimental data with the fracture limit curve demonstrates the effectiveness of the newly proposed criterion for investigating mixed mode fracture in functionally graded materials.

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来源期刊

Theoretical and Applied Fracture Mechanics 工程技术-工程：机械

CiteScore

8.40

自引率

18.90%

发文量

435

审稿时长

37 days

期刊介绍： Theoretical and Applied Fracture Mechanics'' aims & scopes have been re-designed to cover both the theoretical, applied, and numerical aspects associated with those cracking related phenomena taking place, at a micro-, meso-, and macroscopic level, in materials/components/structures of any kind. The journal aims to cover the cracking/mechanical behaviour of materials/components/structures in those situations involving both time-independent and time-dependent system of external forces/moments (such as, for instance, quasi-static, impulsive, impact, blasting, creep, contact, and fatigue loading). Since, under the above circumstances, the mechanical behaviour of cracked materials/components/structures is also affected by the environmental conditions, the journal would consider also those theoretical/experimental research works investigating the effect of external variables such as, for instance, the effect of corrosive environments as well as of high/low-temperature.