基于二次原材料的纤维的特性及其在混凝土技术中的应用

M. Sedlmajer, J. Bubeník, J. Zach, Vítězslav Novák
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引用次数: 0

摘要

目前在水泥基复合材料(尤其是混凝土)中使用不同类型的纤维有多种原因。添加纤维是为了提高机械性能(尤其是钢纤维和玻璃纤维),增加耐久性--减少混凝土老化过程中出现的微裂缝(主要是合成纤维和纤维素纤维),或增加耐火性(聚丙烯纤维)。在这项研究中,对可能用于水泥基复合材料的不同类型的替代纤维(废物回收过程中产生的纤维,否则这些纤维将被送往焚化炉或垃圾填埋场)进行了鉴定。这些纤维来自回收的 PET 瓶、纸张和矿棉,其特性与传统使用的纤维素和聚丙烯纤维进行了比较。在实验部分,用光学显微镜监测了单根纤维的厚度、长度、形状和表面。此外,还通过量热法测定了燃烧热,并进行了差热分析(DTA),以确定高温对被监测纤维的影响。使用扫描电子显微镜监测了纤维的微观结构。实验研究的重点是可用于混凝土并能承受高温应力的纤维。
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Characteristics of fibres based on secondary raw materials and their use in concrete technology
Different types of fibres in cementitious composites, particularly in concrete, are currently used for a number of reasons. Fibres are being added to improve mechanical properties (especially steel and glass fibres), to increase the durability – to reduce occurrence of microcracks during the concrete aging (mainly synthetic and cellulose fibres), or to increase the fire resistance (polypropylene fibres). Within the study, characterization of different types of alternative fibres (fibres generated during waste recycling that would otherwise end in incinerators or landfills) with possible use in cementitious composites. These were fibres from recycled PET bottles, paper, and mineral wool, whose properties were compared to the traditionally used cellulose and polypropylene fibres. In the experimental part, the thickness, length, shape, and surface of individual fibres were monitored by an optical microscope. Furthermore, the amount of heat of combustion was determined by the calorimetric method, and the differential thermal analysis (DTA) was carried out for determination of the impact of high temperature on monitored fibres. The microstructure of fibres was monitored using a scanning electron microscope. The focus of the experimental study was on fibres usable in concrete and capable of enduring high temperature stress.
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