摘要：The construction of rapid prototyping for structured ceramics has a promoting effect on potential applications. In this work, engineering slurry with different formulations were used to develop aqueous colloidal ceramic slurry for direct ink writing (DIW). Optimized slurry of Formulation 5 possessed good printing effect for DIW with stable mechanical properties. Related characteristics, including shrinkage, compressive strength, rheological behavior, and chemical property, were also examined. DIW ceramics prepared from optimized slurry can be preliminarily applied to adsorption of Rhodamine B and chlortetracycline, and possessed the advantages of easy separation and operation compared with powder adsorbents. This work provides a strategy for the design of 3D-printed kaolin ceramic slurry, and also extends to potential application in adsorption. ? 2023 Institute of Process Engineering, Chinese Academy of Sciences.

ISSN号：2096-9147

卷、期、页：卷4期1：73-80

发表日期：2023-03-01

期刊分区（SCI为中科院分区）：无

收录情况：EI（工程索引）,CSCD（中国科技引文期刊）（核心）

发表期刊名称：Green Chemical Engineering

参与作者：Yu, Jiangtao,Wu, Yingcheng,Wu, Peiwen,Lu, Linjie,Chen, Linlin,He, Jing

通讯作者：Zhu, Jie

第一作者：巢艳红,朱文帅

论文类型：期刊论文

论文概要：Zhu, Jie,Yu, Jiangtao,Wu, Yingcheng,巢艳红,Wu, Peiwen,Lu, Linjie,Chen, Linlin,He, Jing,朱文帅，Engineering 3D-printed aqueous colloidal ceramic slurry for direct ink writing，Green Chemical Engineering，2023，卷4期1：73-80

论文题目：Engineering 3D-printed aqueous colloidal ceramic slurry for direct ink writing