Development and characterization of self-healing microcapsules, and optimization of production parameters for microcapsule diameter and core content

IF 1.7 4区 材料科学 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY Multidiscipline Modeling in Materials and Structures Pub Date : 2022-10-21 DOI:10.1108/mmms-08-2022-0145
Çağatay Özada, Merve Ünal, Eslem Kuzu Şahin, Hakkı Özer, A. Motorcu, M. Yazıcı
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Abstract

PurposeThis study produced epoxy-filled urea-formaldehyde (UF) microcapsules (MCs) and T-403 amine MCs using the in situ technique. The Taguchi method was used to determine the effects of the control factors (temperature, stirring speed, core-shell ratio and surfactant concentration) affecting MCs’ core diameter and core content and optimizing their optimum levels with a single criterion. Optimum control factor levels, which simultaneously provide maximum core diameter and core content of MCs, were determined by the PROMETHEE-GAIA multi-criteria optimization method. In addition, the optimized MC yield was analyzed by thermal camera images and compression test.Design/methodology/approachMicrocracks in materials used for aerospace vehicles and automotive parts cause serious problems, so research on self-healing in materials science becomes critical. The damages caused by micro-cracks need to heal themselves quickly. The study has three aims: (1) production of self-healing MCs, mechanical and chemical characterization of produced MCs, (2) single-criteria and multi-criteria optimization of parameters providing maximum MC core diameter and core content, (3) investigation of self-healing property of produced MCs and evaluation. Firstly, MCs were produced to achieve these goals.FindingsThe optimized micro cures are buried in the epoxy matrix at different concentrations. Thermal camera images after damage indicate the presence of healing. An epoxy-amine MC consisting of a 10% by weight filled aluminum sandwich panel was prepared and subjected to a quasi-static compression test. It was determined that there is a strong bond between the UF shell and the epoxy resin.Originality/valueThe optimization of production factors has been realized to produce the most efficient MCs that heal using less expensive and more accessible methods.
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自愈微胶囊的研制与表征,微胶囊直径和芯含量的生产参数优化
目的采用原位法制备环氧脲醛(UF)微胶囊和T-403胺微胶囊。采用田口法确定温度、搅拌速度、核壳比和表面活性剂浓度等控制因素对MCs芯径和芯含量的影响,并以单一标准优化其最优水平。采用promehee - gaia多准则优化方法,确定了同时提供最大岩心直径和岩心含量的最优控制因子水平。并通过热像仪图像和压缩试验对优化后的MC产率进行了分析。设计/方法/途径用于航天飞行器和汽车零部件的材料中的微裂纹会造成严重的问题,因此材料科学中的自修复研究变得至关重要。微裂纹造成的损伤需要快速自愈。该研究有三个目的:(1)自愈型复合材料的制备,对所产复合材料进行力学和化学表征;(2)单准则和多准则优化参数,以获得最大的复合材料岩心直径和岩心含量;(3)研究和评价所产复合材料的自愈性。首先,mc的产生是为了实现这些目标。结果优化后的微固化液以不同的浓度埋藏在环氧树脂基体中。损伤后的热像仪图像显示有愈合。制备了由10%重量填充铝夹心板组成的环氧胺MC,并进行了准静态压缩试验。结果表明,UF壳层与环氧树脂之间有很强的结合。创新/价值生产要素的优化已经实现,以生产最有效的mc,使用更便宜和更容易获得的方法。
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来源期刊
CiteScore
3.70
自引率
5.00%
发文量
60
期刊介绍: Multidiscipline Modeling in Materials and Structures is published by Emerald Group Publishing Limited from 2010
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