Clay Ceramic Support Membrane Optimization Using Factorial Design Approach

Journal of Applied Membrane Science & Technology Pub Date : 2021-11-07 DOI:10.11113/amst.v25n3.208

M. Ait Baih, N. Saffaj, A. Bakka, R. Mamouni, N. El baraka, H. Zidouh, N. El Qacimi

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引用次数: 2

Abstract

In the present study, the effect of Sintering temperature, Particle size and Heating rate of the ceramic support membrane Elaboration based on dry clay were evaluated using full factorial design and investigated by porosity and mechanical strength measures. The flat supports have been prepared from 5 g of the material with a two fraction 2 and 30 µm, the extrusion was performed using the uniaxial pressing in applicant a pressure of 12 tones, the supports sintered between 900° C and 1200°C with a different heating rate (1°C/min and 10°C/min). By using full factorial design 23, it was found that the sintering temperature is the main controlling factors of the physical properties of dry ceramic support membrane, and its increase had a positive effect on Mechanical strength and negative effect on porosity. The interactions between the factors were relatively less important, and they had different (antagonistic/synergetic) influence on the properties. The optimal factors to elaborate the support membrane include a particle size of 2 µm, sintering temperature of 950°C, Heating rate of 1°C predicting the porosity of 40, 8% and Mechanical strength of 12 MPa.

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基于析因设计方法的粘土陶瓷支撑膜优化

本研究采用全因子设计评价了烧结温度、颗粒尺寸和加热速率对干燥粘土陶瓷支撑膜制备的影响，并通过孔隙率和机械强度测试对其进行了研究。平板支架由5克材料以2和30微米两个分数制备而成，在12吨的压力下使用单轴挤压进行挤压，支架在900°C和1200°C之间烧结，加热速率不同(1°C/min和10°C/min)。采用全因子设计23，发现烧结温度是干燥陶瓷支撑膜物理性能的主要控制因素，其升高对机械强度有积极影响，对孔隙率有消极影响。各因子之间的相互作用相对不太重要，它们对性能有不同的(拮抗/协同)影响。制备支撑膜的最佳条件为:粒径为2µm，烧结温度为950℃，升温速率为1℃，孔隙率为40.8%，机械强度为12 MPa。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Applied Membrane Science & Technology

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