Impact of microorganisms on mechanical properties changes of composite materials with organic filler

IF 0.2 Q4 ENGINEERING, GEOLOGICAL Archives for Technical Sciences Pub Date : 2021-03-12 DOI:10.31648/TS.5845
J. Szuszkiewicz
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Abstract

The beginning of the XXIst century is characterized by rapid development of polymer materials, including polymer composite materials, which consist of a natural organic filler (wood flour, sawdust, cellulose fiber, flax fiber, sisal fiber) and reinforcement carrier. In case of that kind of the fillers under the influence of weathering (humidity, temperature) they might be subject to biodegradation due to effect of microorganisms, including funguses, which are responsible for degradation of natural organic fillers. In case of the low melting temperature polymers (e.g. PE-LD) the processing temperature does not entirely eliminate some of the fungal spores. The paper has presented the research results of twelve months. The development of the microorganisms in the natural conditions was examined in a pure filler (sawdust) as well as in a composite. Simultaneously, change of one of the fundamental strength properties, which is the impact strength, was being tested. For the investigated composite the PE-LD as the matrix and a sawdust mixture of pine, larch and oak were used. The sawdust formed the composite in 30 %. The research results confirmed that in the natural conditions the microorganisms development depends on weathering which varies in the time of the year. The value of the V notch impact strength changed from 12.5 kJ/m2 for the composite in initial phase to the value of 6.7 kJ/m2 after twelve months operation, which is 50 %.
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微生物对有机填料复合材料力学性能变化的影响
21世纪初高分子材料发展迅速,其中高分子复合材料是由天然有机填料(木粉、锯末、纤维素纤维、亚麻纤维、剑麻纤维)和增强载体组成。如果这种填料受到风化(湿度、温度)的影响,则可能由于微生物(包括真菌)的作用而发生生物降解,这些微生物负责降解天然有机填料。对于熔融温度较低的聚合物(例如PE-LD),处理温度不能完全消除一些真菌孢子。本文介绍了一年来的研究成果。在自然条件下,研究了纯填料(锯末)和复合材料中微生物的发育情况。同时,测试了一种基本强度性能的变化,即冲击强度。所研究的复合材料以PE-LD为基体,以松木、落叶松和橡木的木屑混合物为基体。木屑以30%的比例形成复合材料。研究结果证实,在自然条件下,微生物的发育取决于一年中的不同时间的风化作用。运行12个月后,复合材料的V型缺口冲击强度由初始阶段的12.5 kJ/m2增加到6.7 kJ/m2,减小了50%。
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来源期刊
Archives for Technical Sciences
Archives for Technical Sciences ENGINEERING, GEOLOGICAL-
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