Improving the properties of gap-filling materials for pottery artifacts with nano silica and nano kaolinite polymeric nanocomposites

H. Mohamed, Wael Sabry Mohamed
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引用次数: 2

Abstract

Purpose The study aims to assess the efficiency of nanocomposite to improve the properties of gap-filling materials for pottery artifacts. Design/methodology/approach Five different pastes were used in the laboratory studies. The pastes consist mainly of pottery powder (grog), dental plaster, microballoons and an adhesive of Primal AC33, nano-silica and nano kaolinite in various concentrations. The prepared samples were subjected to accelerated heat and light aging. Besides, some investigations were used to evaluate the efficacy of the additive nanomaterials, such as TEM, digital and scanning electron microscopy microscopes. Contact angle, color change, shrinkage degree, physical properties and compressive strength tests were also conducted. Findings The results indicated that using Nano-silica considerably improves the mechanical strength and decreases the shrinkage of gap-filling materials. According to the results, a mixture of grog, microballoons and Primal AC33/Nano-silica Nanocomposites is the optimal gap-filling paste for archaeological pottery. Moreover, this paste showed a higher contact angle (120°), lower color change (ΔE = 2.62), lower shrinkage (3.3%), lower water absorption (3.36%), lower porosity (5.05%) and higher compressive strength (5124 N/mm2). Originality/value This paper attains to develop an economic polymer-nanocomposite that can be used with gap-filling materials for pottery artifacts.
用纳米二氧化硅和纳米高岭石聚合物纳米复合材料改善陶瓷制品空隙填充材料的性能
目的研究纳米复合材料对陶瓷制品缝隙填充材料性能的改善作用。设计/方法/方法在实验室研究中使用了五种不同的膏剂。该糊状物主要由陶粉(grog)、牙石膏、微气球和不同浓度的原始AC33、纳米二氧化硅和纳米高岭石的粘合剂组成。制备的样品进行了加速热光老化。此外,通过TEM、数码显微镜和扫描电镜等手段对纳米材料的添加效果进行了评价。并进行了接触角、颜色变化、收缩度、物理性能和抗压强度试验。结果表明:纳米二氧化硅的加入大大提高了填隙材料的机械强度,减小了材料的收缩率。研究结果表明,混合酒、微球和Primal AC33/纳米二氧化硅纳米复合材料是考古陶瓷的最佳填充浆料。该膏体具有较高的接触角(120°)、较低的变色(ΔE = 2.62)、较低的收缩率(3.3%)、较低的吸水率(3.36%)、较低的孔隙率(5.05%)和较高的抗压强度(5124 N/mm2)。原创性/价值本文旨在开发一种经济的聚合物-纳米复合材料,可用于陶瓷制品的缝隙填充材料。
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