Effect of Wood Sawdust Addition on the Morphology, Mechanical Properties, and Thermal Properties of Mullite-Based Porous Ceramic Filter Candidates for Aluminum Casting Process

Applied Mechanics and Materials Pub Date : 2023-09-01 DOI:10.4028/p-oGq8iu

D. Dhaneswara, Kristanto Wahyudi, Muhammad Anis, Jonathan Aditomo, J. F. Fatriansyah

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Abstract

Porous ceramic is a heat-resistant porous material with extensive applications, especially for filtering inclusions in aluminum casting industry. To meet local need for these filters, ceramic foam is fabricated by mixing raw materials including kaolin and chamotte as base material, wood sawdust (WSD) as pore-forming agent (PFA), and carboxymethyl cellulose (CMC) with water as binder. WSD content variable: 0%, 5%, 10%, and 15% was used for this research. The mixture was then formed with dry-press method and sintered at 1200°C to form mullite-based local filters. Characterization of samples morphology, composition, and phase were done using SEM-EDS, XRD, and XRF, while its mechanical and thermal properties were characterized by conducting STA, porosity, coefficient thermal expansion (CTE), permanent linear change (PLC), and flexural strength testing. Results showed an increase of WSD addition on the local filter increased the formation number of open-type pores in fiber form on the ceramic microstructure, no significant heat exchanges from decomposition were detected, increased CTE value from 0,0071 to 0,0371%, PLC from 0,0025 to 0,0345%, apparent porosity from 33,29 to 47,95%, and water infiltration from 18,27 to 33,05%, as well as decreased flexural strength from 13,48 to 6,33 MPa and density from 1.82 to 1.43 g/cm3.

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添加木屑对铝铸造用莫来石基多孔陶瓷过滤器的形貌、力学性能和热性能的影响

多孔陶瓷是一种具有广泛应用的耐热多孔材料，特别是在铝铸造工业中过滤夹杂物。为了满足当地对这些过滤器的需求，以高岭土和灰土为基材，以木屑(WSD)为成孔剂(PFA)，以羧甲基纤维素(CMC)为粘合剂，混合制成陶瓷泡沫。本研究采用WSD含量变量:0%、5%、10%和15%。然后用干压法形成混合物，并在1200℃下烧结，形成莫来石基局部过滤器。采用SEM-EDS、XRD和XRF对样品的形貌、组成和物相进行表征，并通过导电STA、孔隙率、热膨胀系数(CTE)、永久线性变化(PLC)和抗弯强度测试对样品的力学和热性能进行表征。结果表明:局部过滤器上WSD添加量的增加增加了陶瓷微观结构上纤维形态开孔的形成数量，没有发现明显的分解换热，CTE值从0.0071增加到0.0371%，PLC从0.0025增加到0.0345%，表观孔隙率从33.29增加到47.95%，水入渗从18.27增加到33.05%，抗折强度从13.48降低到6.33 MPa，密度从1.82降低到1.43 g/cm3。

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Applied Mechanics and Materials

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