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粉末级配处理对微滴喷射粘结成形可溶性陶瓷芯性能的影响

余小鹏 蒋文明 彭子伟 黄一鹤 李庆晴 樊自田

铸造2026,Vol.75Issue(6):581-586,6.
铸造2026,Vol.75Issue(6):581-586,6.DOI:10.27014/j.cnki.zhuzao.2026.0077

粉末级配处理对微滴喷射粘结成形可溶性陶瓷芯性能的影响

The Influence of Powder Gradation Treatment on the Properties of Soluble Ceramic Cores Prepared by Binder Jetting

余小鹏 1蒋文明 1彭子伟 1黄一鹤 1李庆晴 1樊自田1

作者信息

  • 1. 华中科技大学材料科学与工程学院,材料成形与模具技术全国重点实验室,湖北 武汉 430074
  • 折叠

摘要

Abstract

Using the binder jetting technique to fabricate the soluble ceramic cores,and taking advantage of heavy calcium carbonate powders with the particle size distribution ranging from 17.89 μm to 74.19 μm as raw materials to carry out grading treatment,respectively,the effects of powder particle sizes and particle size distributions on the properties of the ceramic cores have been studied.The results show that the bending strength of the ceramic cores can be effectively improved through the grading treatment,and by selecting and using gradation of Z1(17.89 μm)and Z3(32.54 μm)heavy calcium carbonate powders,optimal green body bending strength(1.96 MPa,being 174%of that without grading treatment)can be obtained,and optimal powder bed spreading effect can be also achieved;with the increase of fine powder content,the bending strengths of the sintered ceramic cores exhibit a trend of first increasing and then decreasing.When the fine powder content increases from 20%to 30%,the bending strength increases from 8.24 MPa to 8.72 MPa.However,when the fine powder content further increases to 40%,the bending strength decreases to 7.74 MPa;the ceramic cores sintered by different treatment processes begin to disintegrate after being immersed in 80 ℃ water for 30 minutes,demonstrating excellent solubility.

关键词

微滴喷射粘结成形/粉末级配/重质碳酸钙/可溶性陶瓷芯/抗弯强度/烧结工艺

Key words

binder jetting/powder gradation/heavy calcium carbonate/soluble ceramic core/bending strength/sintering process

分类

矿业与冶金

引用本文复制引用

余小鹏,蒋文明,彭子伟,黄一鹤,李庆晴,樊自田..粉末级配处理对微滴喷射粘结成形可溶性陶瓷芯性能的影响[J].铸造,2026,75(6):581-586,6.

基金项目

国家自然科学基金(52271102,52075198). (52271102,52075198)

铸造

1001-4977

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