利用相场方法预测缺口部件的混合模式断裂

IF 3.4 3区 工程技术 Q1 MECHANICS International Journal of Solids and Structures Pub Date : 2024-10-26 DOI:10.1016/j.ijsolstr.2024.113113
Bahador Bahrami, Hossein Ahmadian, Mohammad R. Mehraban, Majid R. Ayatollahi
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引用次数: 0

摘要

将相场法(PFM)应用于脆性断裂以研究复杂的断裂现象最近受到了研究人员的关注。然而,人们对缺口部件断裂载荷预测的重视还很有限。在本研究中,我们进行了大量相场模拟,以计算平面加载条件下脆性缺口部件的断裂载荷和裂纹起始角。根据实验数据验证的结果的准确性表明,相场模拟法能够精确预测断裂载荷和断裂起始角。此外,研究还证明,对于承受压缩载荷的缺口巴西圆盘试样,Miehe 的频谱分解法比 Amor 的体积-偏差分割法得出的结果更可靠。
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Mixed-mode fracture prediction of notched components using phase-field approach
The application of the phase-field method (PFM) to brittle fracture for studying complex fracture phenomena has recently gained attention from researchers. However, there has been limited emphasis on predicting fracture loads for notched components. In this study, numerous phase-field simulations were conducted to compute the fracture load and crack initiation angle in brittle notched components under in-plane loading conditions. The accuracy of the results, verified against experimental data, demonstrates the PFM’s ability to precisely predict both fracture load and fracture initiation angle. Additionally, it has been demonstrated that Miehe’s spectral decomposition method provides more reliable results for notched Brazilian Disc specimens subjected to compressive loading than those obtained using Amor’s volumetric-deviatoric split method.
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来源期刊
CiteScore
6.70
自引率
8.30%
发文量
405
审稿时长
70 days
期刊介绍: The International Journal of Solids and Structures has as its objective the publication and dissemination of original research in Mechanics of Solids and Structures as a field of Applied Science and Engineering. It fosters thus the exchange of ideas among workers in different parts of the world and also among workers who emphasize different aspects of the foundations and applications of the field. Standing as it does at the cross-roads of Materials Science, Life Sciences, Mathematics, Physics and Engineering Design, the Mechanics of Solids and Structures is experiencing considerable growth as a result of recent technological advances. The Journal, by providing an international medium of communication, is encouraging this growth and is encompassing all aspects of the field from the more classical problems of structural analysis to mechanics of solids continually interacting with other media and including fracture, flow, wave propagation, heat transfer, thermal effects in solids, optimum design methods, model analysis, structural topology and numerical techniques. Interest extends to both inorganic and organic solids and structures.
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