Analysis of Curing and Mechanical Performance of Pre-Impregnated Carbon Fibers Cured within Concrete

Martin Scheurer, M. Kalthoff, T. Matschei, M. Raupach, T. Gries
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引用次数: 1

Abstract

In carbon-reinforced concrete, the commonly used steel reinforcement is replaced with carbon fiber reinforcement textiles, enabling thin-walled elements by using new construction principles. The high drapability of textiles offers design opportunities for new concrete structures. However, commonly utilized textiles are impregnated with comparatively stiff polymeric materials to ensure load transmission into the textile, limiting drapability. In this paper, a new approach is analyzed: the use of pre-impregnated textiles cured within the concrete matrix. This enables the production of filigree, highly curved components with high mechanical performance, as needed for novel additive manufacturing methods. In the presented trials, rovings were successfully impregnated with potential impregnation materials, cured within the concrete, and compared to rovings cured outside of the concrete. The analysis of the curing process using a rolling ball test determines that all materials have to be placed in concrete 4 to 24 h after impregnation. The results of uniaxial tensile tests on reinforced concrete show that maximum load is increased by up to 87% for rovings cured within concrete (compared to non-impregnated rovings). This load increase was higher for rovings cured outside of concrete (up to 185%), indicating that the concrete environment interferes with the curing process, requiring further analysis and adaptation.
混凝土内预浸渍碳纤维的养护及力学性能分析
在碳增强混凝土中,常用的钢筋被碳纤维增强纺织品取代,通过使用新的施工原理实现薄壁构件。纺织品的高悬垂性为新的混凝土结构提供了设计机会。然而,通常使用的纺织品是用相对坚硬的聚合物材料浸渍的,以确保载荷传输到纺织品中,限制了悬垂性。本文分析了一种新的方法:利用预浸渍纺织品在混凝土基体内固化。这使得生产具有高机械性能的丝状、高度弯曲的部件成为可能,这是新型增材制造方法所需要的。在提出的试验中,粗纱成功地浸渍了潜在的浸渍材料,在混凝土内固化,并与混凝土外固化的粗纱进行了比较。使用滚球试验对养护过程进行分析,确定所有材料在浸渍后必须放置在混凝土中4至24小时。钢筋混凝土单轴拉伸试验结果表明,混凝土内固化的粗纱(与未浸渍的粗纱相比)最大载荷增加了87%。混凝土外养护的粗纱的荷载增加更高(高达185%),表明混凝土环境干扰了养护过程,需要进一步分析和适应。
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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