THERMAL CONDUCTIVITY OF PARTITION BOARD BY POLYMER COMPOSITE WITH FILLER EMPTY FRIUT BUNCHES FIBRES

Jurnal Rekayasa Mesin Pub Date : 2023-08-15 DOI:10.21776/jrm.v14i2.1263

Batumahadi Siregar, Banu Nursanni, S. Januariyansah, Sutrisno Sutrisno, Kinanti Wijaya

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Abstract

Utilization and management of Empty Fruit Bunches (EFB) fibre continue to develop as the main ingredient and additional material used in various industrial products. The technological breakthrough targeted in this study is the developed EFB fibre as a filler in polymer composite partition boards which are used as heat retainers in the interior construction of buildings. The partition board is a heat insulator, and its thermal conductivity is affected by mass density and porosity. The purpose of this study was to determine the heat resistance of partition board products to reduce the heat entering the room from outside by propagating through walls exposed to direct sunlight. The test method used is adopted from ASTM C177-13, namely the measurement of heat propagation with a modification of the heat source of 40 watts. In addition, mass density tests (referring to SNI 03-2105-2006) and water absorption (referring to ASTM D5229M-12) were also carried out on the product. The specimens were based on the formation of Singapore Highpolymer Chemical Product (SHCP) 2667 WNC polyester resin matrix partition board with weight fractions of 25%, 30%, and 35% chop strand mat (CSM). The test results show that the highest thermal conductivity value is found on the board with a weight fraction of 25%, namely 0.153 W/m.°C with a mass density of 1.16 g/cm3 and a water absorption capacity of 3.38%. However, the lowest thermal conductivity value was found in the fibre with weight fraction of 35%, namely 0.147 W/m. °C at a mass density of 1.24 g/cm3 and a water absorption capacity of 3.75%.

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中空果束纤维填充聚合物复合隔墙板的导热性能研究

空果串(EFB)纤维的利用和管理不断发展，作为各种工业产品的主要原料和附加材料。本研究的技术突破目标是开发出EFB纤维作为聚合物复合隔墙板的填料，用于建筑物内部建筑的保温。隔断板是一种隔热材料，其导热性受质量密度和孔隙率的影响。本研究的目的是确定隔墙板产品的耐热性，以减少通过暴露在阳光直射下的墙壁从外部传播进入房间的热量。试验方法采用ASTM C177-13，即在热源修改为40瓦的情况下测量热传播。此外，还对产品进行了质量密度测试(参考SNI 03-2105-2006)和吸水率测试(参考ASTM D5229M-12)。样品是基于新加坡高聚物化工产品(SHCP) 2667 WNC聚酯树脂基质隔板的形成，其重量分数为25%，30%和35%的切链垫(CSM)。测试结果表明，当重量分数为25%时，导热系数最高，为0.153 W/m。质量密度为1.16 g/cm3，吸水率为3.38%。而当质量分数为35%时，纤维的导热系数最低，为0.147 W/m。℃，质量密度为1.24 g/cm3，吸水率为3.75%。

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Jurnal Rekayasa Mesin

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