Analisis Perilaku Material dan Komposisi Engineered Cementitious Composite : Review Studi

Cantilever: Jurnal Penelitian dan Kajian Bidang Teknik Sipil Pub Date : 2022-03-16 DOI:10.35139/cantilever.v10i2.103

I. Komara, P. Suprobo, F. Faimun, D. Iranata

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Abstract

Engineered Cementitious Composite (ECC) concrete or micromechanical modeled concrete using analysis of a mixture of fiber and other added materials can produce a tensile strain capacity of up to three hundred to five hundred times compared to the strain capacity of conventional concrete. A review related to several studies that have been carried out previously on the properties of ECC and their constituent materials is presented in this paper. The behavior of the material is reviewed as an investigation parameter followed by determining the composition of the mixture, namely the effect of the water-cement ratio, the shape and length of the fiber and the addition of additives. The fiber volume fraction review was limited to between 2% to 3%, which resulted in outstanding tensile strain behavior. As it is known, ECC has an excellent capacity in terms of strain behavior which is accompanied by a large number of mico cracking patterns. ECC crack widths are usually predominantly less than 100 μm. ECC behavior is closer to that of steel which can bend or be ductile, whereas conventional concrete is brittle.

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紫苏材料与Komposisi工程胶凝复合材料分析综述

工程胶凝复合材料(ECC)混凝土或微力学模型混凝土，通过分析纤维和其他添加材料的混合物，可以产生比传统混凝土应变能力高300到500倍的拉伸应变能力。本文综述了之前对ECC及其组成材料的性能进行的几项研究。材料的行为作为一个研究参数进行审查，然后确定混合物的组成，即水灰比，纤维的形状和长度以及添加剂的添加的影响。纤维体积分数审查限制在2%至3%之间，这导致了出色的拉伸应变性能。众所周知，ECC在应变行为方面具有优异的能力，并且伴随着大量的微裂纹模式。ECC裂缝宽度通常以小于100 μm为主。ECC的性能更接近于可以弯曲或延性的钢，而传统混凝土是脆性的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Cantilever: Jurnal Penelitian dan Kajian Bidang Teknik Sipil

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