STEEL FIBER CURVATURE IN CONCRETE COMPOSITES: MODULUS PREDICTIONS USING EFFECTIVE STEEL FIBER PROPERTIES | Science Publications

Abdellatif Selmi

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STEEL FIBER CURVATURE IN CONCRETE COMPOSITES: MODULUS PREDICTIONS USING EFFECTIVE STEEL FIBER PROPERTIES | Science Publications

机译：混凝土复合材料中的钢纤维弯曲度：利用有效钢纤维性能的模量预测科学出版物

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> Results in the literature demonstrate that substantial improvements in the mechanical behavior of concrete have been attained through the addition of steel fibers as a reinforcing phase. We have developed a model combining finite element results and micromechanical methods to determine the effective reinforcing modu-lus of hook-ended steel fibers. This effective reinforcing modulus is then used within a multiphase micro-mechanics model to predict the effective modulus of concrete reinforced with a distribution of fibers. We found that fiber curvature effect is negligible when compared to straight fibers. Then mechanical properties of concrete reinforced with crimped steel fibers are predicted using Weng and Huang schemes. The predic-tions are in excellent agreement with experimental results.

机译： >文献中的结果表明，通过添加钢纤维作为增强相，混凝土的机械性能有了实质性的改善。我们已经开发了一个将有限元结果与微机械方法相结合的模型，以确定钩端钢纤维的有效增强模量。然后，在多相微力学模型中使用此有效的增强模量来预测纤维分布增强的混凝土的有效模量。我们发现，与直纤维相比，纤维曲率效应可忽略不计。然后使用翁和黄方案预测了卷曲钢纤维增强混凝土的力学性能。该预测与实验结果非常吻合。

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《American journal of applied sciences》 |2013年第1期|共页
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Abdellatif Selmi;
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1. STEEL FIBER CURVATURE IN CONCRETE COMPOSITES: MODULUS PREDICTIONS USING EFFECTIVE STEEL FIBER PROPERTIES [J] . Abdellatif Selmi American journal of applied sciences . 2014,第1期

机译：混凝土复合材料中的钢纤维弯曲度：利用有效钢纤维特性的模量预测
2. Durability properties of concrete reinforced with steel-polypropylene hybrid fibers : Science and Engineering of Composite Materials [J] . Fuat K?ksal, Osman Gencel, Burhan Unal, Science and Engineering of Composite Materials . 2012,第1期

机译：钢-聚丙烯混杂纤维增强混凝土的耐久性能：复合材料科学与工程
3. Pullout Characterizations of Various Steel Fibers Embedded in Very High-Strength Concrete | Science Publications [J] . Brian Zornig, Sameer Hamoush, Taher Abu-Lebdeh, American journal of engineering and applied sciences . 2010,第2期

机译：嵌入高强度混凝土中的各种钢纤维的抗拉特性科学出版物
4. Comparative Structural and Non-structural Properties of Ultra High-performance Steel-fiber-reinforced Concretes and High-Performance Steel-fiber-reinforced Concretes* [C] . Duy-Liem NGUYEN, Phu-Cuong NGUYEN, Van-Thuan NGUYEN, International Conference on Green Technology and Sustainable Development . 2018

机译：超高性能钢纤维增强混凝土与高性能钢纤维增强混凝土的结构和非结构性能比较
5. Study of Electromagnetic Alignment of Steel Fibers and Its Effects on Steel Fiber Reinforced Concrete (SFRC) Properties [D] . Ghebreyesus, Filmon G. 2020

机译：钢纤维电磁对准及其对钢纤维钢筋混凝土（SFRC）性能的影响研究
6. Mechanical Properties of Crumb Rubber and Basalt Fiber Composite Modified Porous Asphalt Concrete with Steel Slag as Aggregate [O] . Chao Chai, Yongchun Cheng, Yuwei Zhang, 2020

机译：基屑橡胶和玄武岩纤维复合改性多孔沥青混凝土钢渣的机械性能
7. STEEL FIBER CURVATURE IN CONCRETE COMPOSITES: MODULUS PREDICTIONS USING EFFECTIVE STEEL FIBER PROPERTIES [O] . 2014

机译：混凝土复合材料中的钢纤维曲率：使用有效钢纤维性能的模量预测
8. Behavior of Concrete Panels Reinforced with Synthetic Fibers, Mild Steel, and GFRP Composites Subjected to Blasts. [R] . Pantelides, C. P., Garfield, T. T., Richins, W. D., 2012

机译：用合成纤维，低碳钢和GFRp复合材料增强混凝土板的性能。

STEEL FIBER CURVATURE IN CONCRETE COMPOSITES: MODULUS PREDICTIONS USING EFFECTIVE STEEL FIBER PROPERTIES | Science Publications

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