An experimental and numerical study on how steel and polypropylene fibers affect the impact resistance in fiber-reinforced concrete

A. Alavi Nia; M. Hedayatian; M. Nili; V. Afrough Sabet

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An experimental and numerical study on how steel and polypropylene fibers affect the impact resistance in fiber-reinforced concrete

机译：钢和聚丙烯纤维如何影响纤维增强混凝土的抗冲击性的实验和数值研究

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摘要

In this paper, impact loading results from numerical simulations of plain concrete (PC) and fiber-reinforced concrete (FRC) are compared with experimental testing data, which were based on a testing procedure recommended by ACI committee 544. Concrete specimens were prepared with two water-cement ratios 0.36 and 0.46. Hooked-end steel fibers with an aspect ratio equal of 80 at 0.5% and 1% volume fractions and polypropylene fibers at 0.2%, 0.3% and 0.5% volume fractions were used. Both the numerical and experimental analysis results indicated that increasing the fiber volume fraction increased the impact resistance of the concrete specimens. The impact resistance increase was greater for normal-strength than that for high-strength concrete. The results also demonstrated that steel fibers are more effective at increasing impact resistance than polypropylene fibers.

机译：本文将基于普通混凝土（PC）和纤维增强混凝土（FRC）数值模拟的冲击载荷结果与基于ACI委员会544推荐的测试程序的实验测试数据进行比较。混凝土试样由两个水灰比为0.36和0.46。使用的长径比为80的钩端钢纤维（体积分数为0.5％和1％）和聚丙烯纤维的体积比为0.2％，0.3％和0.5％。数值和实验分析结果均表明，增加纤维体积分数可提高混凝土试样的抗冲击性。普通强度的冲击强度的增加要大于高强度混凝土的冲击强度的增加。结果还表明，钢纤维在提高抗冲击性方面比聚丙烯纤维更有效。

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《International journal of impact engineering》 |2012年第2012期|p.62-73|共12页
作者
A. Alavi Nia; M. Hedayatian; M. Nili; V. Afrough Sabet;
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作者单位

Department of Mechanical Engineering, Bu-AIi Sina University, Hamedan, Iran;

Department of Mechanical Engineering, Bu-AIi Sina University, Hamedan, Iran;

Department of Civil Engineering, Bu-AIi Sina University, Hamedan. Iran;

Department of Civil Engineering, Bu-AIi Sina University, Hamedan. Iran;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
fiber-reinforced concrete; modeling; mechanical properties; finite element analysis; impact resistance;

机译：纤维增强混凝土;造型;机械性能有限元分析;耐冲击;

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2. Experimental and Numerical Study on the Compression Behavior of Square Concrete-Filled Steel Tube Stub Columns with Steel Fiber-Reinforced High-Strength Concrete [J] . Jung Hyung-Suk, Bae Baek-Il, Choi Hyun-Ki, International Journal of Polymer Science . 2018,第1期

机译：钢纤维增强高强度混凝土方形混凝土钢管柱压缩行为的实验与数值研究
3. Experimental analysis of fiber-reinforced recycled aggregate self-compacting concrete using waste recycled concrete aggregates, polypropylene, and steel fibers [J] . Aslani Farhad, Hou Lijun, Nejadi Shami, Structural concrete . 2019,第5期

机译：使用废再生混凝土骨料，聚丙烯和钢纤维的纤维增强再生骨料自密实混凝土的实验分析
4. Experimental study on mechanical properties of steel and polypropylene fiber-reinforced concrete [C] . Liang Shan, Liang Zhang International Conference on Civil Engineering, Architecture and Building Materials . 2014

机译：钢和聚丙烯纤维钢筋混凝土力学性能试验研究
5. Experimental and Numerical Study of Steel Fiber Reinforced Concrete Structures Subjected to Internal Explosion [D] . ?Moon, Nikhil Vasant 2020

机译：内部爆炸钢纤维钢筋混凝土结构的实验与数值研究
6. Analytical Modeling of the Postcracking Response Observed in Hybrid Steel/Polypropylene Fiber-Reinforced Concrete [O] . Antonio Caggiano, Marco Pepe, Hernan Xargay, 2020

机译：杂交钢/聚丙烯纤维钢筋混凝土中观察到的后传播响应的分析模型
7. Mechanical properties of various concrete after high temperature exposure Mechanical property of various types of concrete after high temperature exposure is investigated. Considering compressive strength requirement for a vertical element in high rise building, concrete specimens with various design strengths of 35, 80, 100, and 150 MPa were tested. Particularly, the influence of incorporated steel fiber on fire resistance is of interest in this study. Experimental results show that the fire resistance depends on the design strength and steel fiber content. Normal strength concrete (NSC) of a design strength of 35 MPa or high performance concrete (HPC) of 80-100 MPa does not spall when exposed to 100-400 °C of temperature. However, an explosive spalling occurs at 300 °C when the HPCs contain 1 vol. of steel fiber. Ultra-high performance concrete (UHPC) of a design strength of 150 MPa and 1.5 vol. of steel fiber also shows dramatic spalling at 300 °C. The experimental results found in this study can contribute to a better understanding of the behaviors of HPC and UHPC under fire and the role of steel fiber on the fire resistance. [O] . 2017

机译：研究了高温暴露后各种混凝土高温曝光机械性能各种混凝土的机械性能。考虑到高层建筑中垂直元件的抗压强度要求，测试了35,80,100和150MPa各种设计强度的混凝土试样。特别是，在这项研究中，掺入钢纤维对耐火性的影响。实验结果表明，耐火性取决于设计强度和钢纤维含量。在暴露于100-400°C的温度时，80-100MPa的设计强度为35MPa或高性能混凝土（HPC）的正常强度混凝土（NSC）不会击落。然而，当HPC含有1体积的钢纤维的百分比时，爆炸性剥落发生在300℃。超高性能混凝土（UHPC）的设计强度为150 MPa和1.5 Vol。钢纤维的百分比也显示出300℃的剧烈剥落。本研究中发现的实验结果可以有助于更好地了解在火灾中的HPC和UHPC的行为以及钢纤维对耐火性的作用。
8. Strength, and Behavior of Steel Fiber-Reinforced Concrete and Soil Structures Interaction Studies [R] . Ko, H. H. 1987

机译：钢纤维混凝土的强度，性能与土体结构相互作用研究

An experimental and numerical study on how steel and polypropylene fibers affect the impact resistance in fiber-reinforced concrete

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