{"title":"玻璃纤维复合材料-钢粘接界面的模式 II 断裂行为--实验和 CZM","authors":"","doi":"10.1016/j.engfracmech.2024.110510","DOIUrl":null,"url":null,"abstract":"<div><div>The dominant failure mode was characterized as debonding in the novel non-welded wrapped composite joint made with GFRP composites wrapped around steel sections. Glass fiber composite-steel three-point end notched flexure (3ENF) and four-point end notched flexure (4ENF) specimens were utilized to experimentally investigate mode II fracture behavior of this composite-steel bonded interface. Two new methods were proposed with the help of digital image correlation (DIC) technique to quantify fracture data during the tests: 1) the “shear strain scaling method” to quantify the crack length <em>a</em>; 2) the asymptotic analysis method based on the longitudinal displacement distribution along the height of the specimen at the pre-crack tip to quantify the crack tip opening displacement (CTOD). To numerically simulate the mode II fracture behavior, a four-linear traction-separation law was proposed in the cohesive zone modeling (CZM) where the softening behavior with a plateau was defined by the authors between traditionally considered initiation and fiber bridging behavior. The experimental and numerical approaches were validated mutually through good matches between the test and FEA results. 3ENF test provided good insight into softening behavior while 4ENF contributed to quantification of fiber bridging. These findings contribute to a more comprehensive characterization and understanding of the ductile fracture behavior of bi-material bonded joints, especially in mode II failure scenarios.</div></div>","PeriodicalId":11576,"journal":{"name":"Engineering Fracture Mechanics","volume":null,"pages":null},"PeriodicalIF":4.7000,"publicationDate":"2024-09-21","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.sciencedirect.com/science/article/pii/S0013794424006738/pdfft?md5=0ce5a0fec68ab83fe6fd12e2ef2c1995&pid=1-s2.0-S0013794424006738-main.pdf","citationCount":"0","resultStr":"{\"title\":\"Mode II fracture behavior of glass fiber composite-steel bonded interface–experiments and CZM\",\"authors\":\"\",\"doi\":\"10.1016/j.engfracmech.2024.110510\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><div>The dominant failure mode was characterized as debonding in the novel non-welded wrapped composite joint made with GFRP composites wrapped around steel sections. Glass fiber composite-steel three-point end notched flexure (3ENF) and four-point end notched flexure (4ENF) specimens were utilized to experimentally investigate mode II fracture behavior of this composite-steel bonded interface. Two new methods were proposed with the help of digital image correlation (DIC) technique to quantify fracture data during the tests: 1) the “shear strain scaling method” to quantify the crack length <em>a</em>; 2) the asymptotic analysis method based on the longitudinal displacement distribution along the height of the specimen at the pre-crack tip to quantify the crack tip opening displacement (CTOD). To numerically simulate the mode II fracture behavior, a four-linear traction-separation law was proposed in the cohesive zone modeling (CZM) where the softening behavior with a plateau was defined by the authors between traditionally considered initiation and fiber bridging behavior. The experimental and numerical approaches were validated mutually through good matches between the test and FEA results. 3ENF test provided good insight into softening behavior while 4ENF contributed to quantification of fiber bridging. 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引用次数: 0
摘要
用玻璃纤维增强复合材料包裹钢截面制成的新型非焊接包裹复合材料接头的主要失效模式为脱粘。利用玻璃纤维复合材料-钢三点末端缺口挠曲(3ENF)和四点末端缺口挠曲(4ENF)试样对这种复合材料-钢粘接界面的模式 II 断裂行为进行了实验研究。在数字图像相关(DIC)技术的帮助下,提出了两种新方法来量化试验过程中的断裂数据:1) 用 "剪切应变缩放法 "量化裂纹长度 a;2) 用基于裂纹前端试样高度的纵向位移分布的渐近分析法量化裂纹尖端张开位移 (CTOD)。为了对模式 II 断裂行为进行数值模拟,作者在内聚区建模(CZM)中提出了四线性牵引分离定律,并在传统的起始行为和纤维桥接行为之间定义了具有高原的软化行为。通过试验和有限元分析结果之间的良好匹配,实验和数值方法得到了相互验证。3ENF 试验很好地揭示了软化行为,而 4ENF 则有助于量化纤维架桥。这些发现有助于更全面地描述和理解双材料粘接接头的韧性断裂行为,尤其是在模式 II 失效情况下。
Mode II fracture behavior of glass fiber composite-steel bonded interface–experiments and CZM
The dominant failure mode was characterized as debonding in the novel non-welded wrapped composite joint made with GFRP composites wrapped around steel sections. Glass fiber composite-steel three-point end notched flexure (3ENF) and four-point end notched flexure (4ENF) specimens were utilized to experimentally investigate mode II fracture behavior of this composite-steel bonded interface. Two new methods were proposed with the help of digital image correlation (DIC) technique to quantify fracture data during the tests: 1) the “shear strain scaling method” to quantify the crack length a; 2) the asymptotic analysis method based on the longitudinal displacement distribution along the height of the specimen at the pre-crack tip to quantify the crack tip opening displacement (CTOD). To numerically simulate the mode II fracture behavior, a four-linear traction-separation law was proposed in the cohesive zone modeling (CZM) where the softening behavior with a plateau was defined by the authors between traditionally considered initiation and fiber bridging behavior. The experimental and numerical approaches were validated mutually through good matches between the test and FEA results. 3ENF test provided good insight into softening behavior while 4ENF contributed to quantification of fiber bridging. These findings contribute to a more comprehensive characterization and understanding of the ductile fracture behavior of bi-material bonded joints, especially in mode II failure scenarios.
期刊介绍:
EFM covers a broad range of topics in fracture mechanics to be of interest and use to both researchers and practitioners. Contributions are welcome which address the fracture behavior of conventional engineering material systems as well as newly emerging material systems. Contributions on developments in the areas of mechanics and materials science strongly related to fracture mechanics are also welcome. Papers on fatigue are welcome if they treat the fatigue process using the methods of fracture mechanics.
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