Rheological Analysis of Zirconia-Hydroxyapatite with Bi-Modal System of Binders; Low-Density Polyethylene and Palm Stearin

IF 0.4 Q4 ENGINEERING, MULTIDISCIPLINARY International Journal of Integrated Engineering Pub Date : 2023-10-19 DOI:10.30880/ijie.2023.15.05.019
Muhammad Mohamed Amin, Nur Syamimi Zainal Adelin, Abu Bakar Sulong, Norhamidi Muhamad
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Abstract

The two component micro-powder injection molding (2C-μPIM) process has evolved from μPIM process because of the increasing demand for multi-functional micro-components applications. In this research work, the selected materials to fabricate micro-sized bi-material parts are zirconia (ZrO2) and hydroxyapatite (HA). ZrO2 is chosen for structural integrity and bio-inert, while HA is mainly chosen for bio-active properties. The reason of employing the multi-component binders is to ensure the flowability of the feedstock. Feedstock rheological characteristics needs to be carefully investigated to avoid any undesirable and inhomogeneous mixture between powder and binder. A common binder system which is comprised of palm stearin and low-density polyethylene (LDPE) were mixed with individual ZrO2 and HA powder particles to prepare for ZrO2 and HA feedstocks. Typically, the feedstocks were obtained ZrO2 and HA powders independently with a binder ratio of 60 wt.% of palm stearin and 40wt.% low-density polyethylene (LDPE). The mixing was carried out in Brabender mixer. Before mixing, critical powder volume percentage (CPVP) analysis was carried out to determine the optimal powder loadings required to prepare the ZrO2 and HA feedstocks. In this research work, the obtained CPVP of ZrO2 and HA powders were 47.0 and 59.0 vol.%, respectively. Based on CPVP analysis, six feedstocks with optimal powder loadings of 43, 44 and 45 vol.% for ZrO2 and 54, 55 and 56 vol.% for HA were prepared. The rheological analysis involving viscosity, shear rate, flow behavior index, activation energy and moldability index was investigated using capillary rheometer. Based on the obtained rheology result, it shows that the overall shear rate and viscosity are within the 2C-μPIM process recommended range. All tested composition shows pseudoplastic behavior. The results of the study found that ZrO2 and HA with optimal powder loadings of 55 vol.% and 44 vol.% have good rheological properties compared to feedstocks with other powder loadings. This is because both materials meet the criteria of good rheological properties which are low viscosity, high shear rate, flow behavior index less than one, low activation energy and high moldability index.
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双峰系氧化锆-羟基磷灰石的流变学分析低密度聚乙烯和棕榈硬脂
双组分微粉末注射成型工艺(2C-μPIM)是从μPIM工艺发展而来的,是多功能微元件应用需求的不断增长。在本研究中,选择了氧化锆(ZrO2)和羟基磷灰石(HA)作为制备微尺寸双材料部件的材料。选择ZrO2是为了结构的完整性和生物惰性,而选择HA主要是为了生物活性。采用多组分粘结剂的原因是为了保证原料的流动性。需要仔细研究原料的流变特性,以避免粉末和粘合剂之间出现任何不希望的和不均匀的混合物。将棕榈硬脂和低密度聚乙烯(LDPE)组成的普通粘结剂体系与单独的ZrO2和HA粉末颗粒混合,制备ZrO2和HA原料。通常,原料分别为ZrO2和HA粉末,粘合剂比例为60 wt.%棕榈硬脂和40wt. %。%低密度聚乙烯(LDPE)混合在Brabender混合器中进行。在混合前,进行临界粉末体积百分比(CPVP)分析,以确定制备ZrO2和HA原料所需的最佳粉末负荷。在本研究中,ZrO2和HA粉体的CPVP分别为47.0和59.0 vol.%。基于CPVP分析,制备了ZrO2的最佳粉量为43、44和45 vol.%, HA的最佳粉量为54、55和56 vol.%的6种原料。利用毛细管流变仪对其进行了粘度、剪切速率、流动性能指标、活化能和可塑性指标的流变分析。所得的流变学结果表明,总体剪切速率和粘度均在2C-μPIM工艺推荐范围内。所有测试成分均表现出假塑性行为。研究结果发现,ZrO2和HA的最佳粉载率分别为55 vol.%和44 vol.%,与其他粉载率的原料相比,具有良好的流变性能。这是因为这两种材料都符合良好流变性能的标准,即低粘度、高剪切速率、流动行为指数小于1、低活化能和高成型指数。
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来源期刊
International Journal of Integrated Engineering
International Journal of Integrated Engineering ENGINEERING, MULTIDISCIPLINARY-
CiteScore
1.40
自引率
0.00%
发文量
57
期刊介绍: The International Journal of Integrated Engineering (IJIE) is a single blind peer reviewed journal which publishes 3 times a year since 2009. The journal is dedicated to various issues focusing on 3 different fields which are:- Civil and Environmental Engineering. Original contributions for civil and environmental engineering related practices will be publishing under this category and as the nucleus of the journal contents. The journal publishes a wide range of research and application papers which describe laboratory and numerical investigations or report on full scale projects. Electrical and Electronic Engineering. It stands as a international medium for the publication of original papers concerned with the electrical and electronic engineering. The journal aims to present to the international community important results of work in this field, whether in the form of research, development, application or design. Mechanical, Materials and Manufacturing Engineering. It is a platform for the publication and dissemination of original work which contributes to the understanding of the main disciplines underpinning the mechanical, materials and manufacturing engineering. Original contributions giving insight into engineering practices related to mechanical, materials and manufacturing engineering form the core of the journal contents.
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