Rising demand for the sustainable environment has been enthused interest in the synthesis of a green composite. In the modern era, thermal insulating materials prepared from agro-waste have been concerned globally as they represent a biodegradability and inexpensive alternative to the conventionally derived materials. Nearly 350 million tons of agro-waste is generated through agricultural activity in India which are either land filled or incinerated. The reuse of renewable waste fibers as filler for reinforcement of a polymer composite is a worthwhile option to the environment. This extensive review explores the utilization of agro-waste for synthesis biodegradable thermal resistant composite and methods used for thermal conductivity measurement. Proper utilization of agro-waste is the need of the modern world. In this review, Authors found that agro-waste such as corn cob, corn stalk, rice waste, date palm fiber, durian peel fiber, coconut coir, and straw bales etc. can be blended into the polymer to enhancing its thermal resistant property by lowering their thermal conductivity. This review also investigated an effect of different parameters such as particle size, moisture content, density, and concentration of agro-waste in composite preparation.


中文翻译：

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绿色耐热复合材料的合成

对绿色环保复合材料的合成引起了人们对可持续环境不断增长的需求。在现代时代，由农业废料制成的绝热材料已成为全球关注的问题，因为它们代表了生物可降解性，并且是传统衍生材料的廉价替代品。印度的农业活动通过填埋或焚化产生了近3.5亿吨农业废物。将可再生废纤维用作填料来增强聚合物复合材料对环境来说是一个值得选择的选择。这篇广泛的综述探讨了将农业废料用于合成可生物降解的耐热复合材料的方法以及用于热导率测量的方法。正确利用农业废物是现代世界的需要。在这篇评论中 作者发现，可以将诸如玉米芯，玉米秸秆，大米废料，枣椰子纤维，榴莲果皮纤维，椰子椰壳和稻草等的农业废料掺混到聚合物中，以通过降低其导热性来增强其耐热性。 。这篇综述还研究了复合制备中不同参数（例如粒度，水分含量，密度和农业废料浓度）的影响。