Synthesis and Acid Digestion of Biomorphic Ceramics: Determination of Alkaline and Alkaline Earth Ions

Catalina Bosch Ojeda, Fuensanta Sánchez Rojas, José Manuel Cano Pavón
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Abstract

Ceramic and glass are some of the more recent engineering materials and those that are most resistant to environmental conditions. They belong to advanced materials in that they are being developed for the aerospace and electronics industries. In the last decade, a new class of ceramic materials has been the focus of particular attention. The materials were produced with natural, renewable resources (wood or wood-based products). In this work, we have synthesised a new biomorphic ceramic material from oak wood and Si infiltration. After the material characterization, we have optimized the dissolution of the sample by acid attack in an oven under microwave irradiation. Experimental designs were used as a multivariate strategy for the evaluation of the effects of varying several variables at the same time. The optimization was performed in two steps using factorial design for preliminary evaluation and a Draper-Lin design for determination of the critical experimental conditions. Five variables (time, power, volume of HNO3, volume H2SO4 and volume of HF) were considered as factors and as a response the concentration of different metal ions in the optimization process. Interactions between analytical factors and their optimal levels were investigated using a Draper-Lin design.

生物形态陶瓷的合成和酸消化:碱性和碱土离子的测定
陶瓷和玻璃是较新的工程材料,也是最能抵抗环境条件的材料。它们属于先进材料,因为它们是为航空航天和电子工业开发的。在过去的十年里,一类新的陶瓷材料一直是人们特别关注的焦点。这些材料是用天然的、可再生的资源(木材或木基产品)生产的。在这项工作中,我们用橡木和硅渗透合成了一种新的生物形态陶瓷材料。在材料表征后,我们优化了样品在微波辐照下的酸侵蚀溶解。实验设计作为一种多变量策略,用于评估同时改变多个变量的效果。优化分两步进行,采用因子设计进行初步评价,采用Draper-Lin设计确定关键实验条件。考虑时间、功率、HNO3体积、H2SO4体积和HF体积这5个变量对优化过程中不同金属离子浓度的影响。使用Draper-Lin设计研究了分析因子与其最佳水平之间的相互作用。
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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