废轮胎橡胶杂化复合材料裂纹与振动对吸能性能的影响

IF 1.1 4区 材料科学 Q4 MATERIALS SCIENCE, COMPOSITES Progress in Rubber Plastics and Recycling Technology Pub Date : 2023-01-13 DOI:10.1177/14777606231152508
M. Sermaraj, K. Ramanathan, D. R. Rajkumar, M. Alphin
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引用次数: 0

摘要

以垃圾填埋材料为增强材料的复合材料在工程材料中得到了广泛的应用,可以减少对环境的污染。废轮胎橡胶,破碎的瓷砖和木颗粒正在对周围环境造成危害。特别是废旧轮胎橡胶的回收利用具有很高的挑战性,但它具有很好的吸收能量的性能。橡胶增强剂作为复合材料的单一填料,在加工和应用上存在一定的局限性。因此,在本工作中,将上述废料掺入制备复合材料。评价了复合材料的断裂韧性和抗剪强度,并与纯环氧试样进行了比较。为了寻找复合材料在动力条件下的应用,进行了振动分析。橡胶的存在降低了环氧复合材料的断裂韧性,而陶瓷的掺入大大提高了环氧复合材料的断裂韧性。复合材料的抗剪强度随着陶瓷颗粒和木材颗粒的加入而增加。但橡胶颗粒对陶瓷基环氧复合材料的阻尼性能影响较大。在环氧树脂中加入陶瓷提高了系统的固有频率,降低了系统的阻尼系数。这可以通过在环氧树脂基体中加入橡胶和陶瓷来补偿。陶瓷/环氧橡胶添加量为15 wt %时,其固有频率比添加量为5 wt %时提高18.52%,阻尼系数提高288%。陶瓷和橡胶基环氧复合材料的固有频率和阻尼系数在所有组合中最高,可用于振动应用,以吸收高频能量。
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Effect of crack and vibration of waste tyre rubber hybrid composite for energy absorption applications
Composites reinforced with landfill waste materials have find the applications in engineering materials and they can lead to reduce the environmental pollutions. Waste tyre rubber, broken ceramic tiles and wood particles are creating the environmental hazard to the surroundings. In particular, the recycling of used tyre rubber is highly challenging, but it has very good property to absorb the energy. The reinforcement of rubber as single filler in composite has the limitations in processing and applications. Hence, the above waste materials are incorporated to prepare the composite in the present work. The fracture toughness and shear strength of composites were evaluated and compared with other combinations along with pure epoxy specimen. In order to find the application of composite in dynamic conditions the vibration analysis were done. The presents of rubber decreased the fracture toughness and at the same time the incorporation of ceramic largely improved the fracture toughness of epoxy composite. The shear strength of composites increased with the addition of ceramic and wood particles. But the rubber particle has the great influence on the damping behavior of ceramic base epoxy composites. The addition of ceramic with the epoxy increased the natural frequency and decreased the damping factor. This can be compensated by the inclusion of rubber with ceramic in epoxy resin matrix. 15 wt % addition of rubber with ceramic and epoxy increased the natural frequency of 18.52% and damping factor of 288% than 5 wt % of rubber with ceramic and epoxy. The natural frequency and damping factor of ceramic and rubber based epoxy composite have the highest amount of all combinations and can be used for vibration applications to absorb the energy at high frequencies.
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来源期刊
Progress in Rubber Plastics and Recycling Technology
Progress in Rubber Plastics and Recycling Technology MATERIALS SCIENCE, COMPOSITES-POLYMER SCIENCE
CiteScore
4.40
自引率
7.70%
发文量
18
审稿时长
>12 weeks
期刊介绍: The journal aims to bridge the gap between research and development and the practical and commercial applications of polymers in a wide range of uses. Current developments and likely future trends are reviewed across key areas of the polymer industry, together with existing and potential opportunities for the innovative use of plastic and rubber products.
期刊最新文献
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