Determination of fracture toughness J on fiber-metal laminate type CARALL with sheets of aluminium 6061

机译：用铝板纤维 - 金属层压型卡尔测定骨折韧性J.6061

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Determination of fracture toughness in hybrid composites, fiber-metal laminates, FML, is very important to perform an analysis of structural integrity to estimate damage tolerated and residual strength of the material against the propagation of cracks. This evaluation should be done both as naval and aircraft structures using FML CARALL composites (CArbon Reinforced Aluminum Laminates) type. In this work, the experimental determination of fracture toughness is presented in terms of the parameters J and CTOD using compact specimens C(T) on the laminated composite 5/4 with foils of 6061-0 and carbon fibers NCT-301 embedded in epoxy resin. The results indicate that the adaptation of the elastic-plastic fracture toughness techniques is acceptable to use for determining J toughness on CARALL type composites. A fracture surface analysis is also performed using optical and SEM microscopy techniques to observe the shape of crack propagation and the process of delaminating and fiber breakage, which is the main fracture mechanism in these materials

机译：杂交复合材料中的骨折韧性，纤维金属层压板FML非常重要，对结构完整性进行分析以估计抗裂纹传播的损伤和物料的剩余强度。应使用FML卡尔复合材料（碳增强铝层压板）型作为海军和飞机结构来进行该评估。在这项工作中，在层压复合5/4上使用紧凑型试样C（t）的参数j和ctod来呈现裂缝韧性的实验测定，其中包含6061-0和碳纤维Nct-301的箔，含有环氧树脂的碳纤维。结果表明，用于在卡尔式复合材料上确定J韧性的使用可接受弹性塑料断裂韧性技术的适应性。使用光学和SEM显微镜技术进行裂缝表面分析，观察裂纹传播的形状和分层和纤维破裂的过程，这是这些材料中的主要断裂机制

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《International Congress of Science and Technology of Metallurgy and Materials》|2014年||共8页
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Juan C. Rios; Enrique Chomik; Juan J. Balderrama;
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中图分类工程材料学;
关键词
FML composite; CARALL; Fracture toughness; Fracture instability; Fatigue crack growth; Delaminating;

机译：FML复合;卡尔;断裂韧性;破裂不稳定;疲劳裂纹增长;分层;

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1. Enhancing mode I inter-laminar fracture toughness of aluminum/fiberglass fiber-metal laminates by combining surface pre-treatments [J] . O. Laban, E. Mahdi International Journal of Adhesion & Adhesives . 2017,第期

机译：通过组合表面预处理，增强铝/玻璃纤维纤维金属层压板的层间骨折韧性
2. Fracture toughness of unidirectional fiber-metal laminates: crack orientation effect [J] . E.M. Castrodeza, F.L. Bastian, I.E. Perez Ipina Engineering Fracture Mechanics . 2005,第14期

机译：单向纤维金属层压板的断裂韧性：裂纹取向效应
3. Interfacial fracture toughness of polyester-based fiber-metal laminates with primary contact and secondary adhesive bonding [J] . M. J. Burns, P. Compston Journal of Materials Science . 2004,第8期

机译：具有一次接触和二次粘合的聚酯基纤维金属层压板的界面断裂韧性
4. Determination of fracture toughness J on fiber-metal laminate type CARALL with sheets of aluminium 6061 [C] . Juan C. Rios, Enrique Chomik, Juan J. Balderrama International Congress of Science and Technology of Metallurgy and Materials . 2014

机译：用铝板纤维 - 金属层压型卡尔测定骨折韧性J.6061
5. Modelling the Effects of Element Doping and Temperature Cycling on the Fracture Toughness of beta-Nickel-Aluminium / alpha-Aluminium Oxide Interfaces in Gas Turbine Engines. [D] . Samson, Tyler. 2013

机译：模拟元素掺杂和温度循环对燃气轮机中β-镍-铝/α-铝氧化物界面断裂韧性的影响。
6. The Thickness Effect of PSF Nanofibrous Mat on Fracture Toughness of Carbon/Epoxy Laminates [O] . Hamed Saghafi, Ali Nikbakht, Reza Mohammadi, 2021

机译：PSF纳米纤维对碳/环氧层压裂缝骨折韧性的厚度效应
7. Determination of Fracture Toughness J on Fiber-metal Laminate Type CARALL with Sheets of Aluminium 6061 [O] . Ríos Juan C., Chomik Enrique, Balderrama Juan J., 2015

机译：铝板6061在金属纤维层压板CARALL上的断裂韧性J的测定

Determination of fracture toughness J on fiber-metal laminate type CARALL with sheets of aluminium 6061

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