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博士生杨强参加国际会议回国报告

发布时间:2016-05-27 点击数:

博士生杨强参加国际会议回国报告

1汇报安排

题 目:参加PRO-AM 2016国际会议总结报告会

时 间:2016年5月30日19:30-19:50

地 点:交大兴庆校区快速成型工程中心会议室

报告人:博1418班——杨强

学 号:4114001033

指导教师:李涤尘 教授

2参加国际会议信息

会议名称:2nd International Conference on Progress in Additive Manufacturing (PRO-AM 2016)

会议日期:16-19 May, 2016

会议地点:NanYang Executive Center NTU, Singapore

会议简介:Riding on the success of the 1st Pro-AM Conference in 2014, the biennial conference will be held in Singapore for the 2nd time from 16 to 19 May 2016. In this conference cum exhibition, Pro-AM 2016 brings to you the latest commercial and scientific progress in Additive Manufacturing. Learn about scientific breakthroughs and technological advances in Additive Manufacturing from global subject matter experts and researchers. Witness the latest technologies and applications that will be displayed by commercial market players at the trade exhibition.

3参会论文信息

Title: The Preparation of Calcia-based Ceramic Slurry for Rapid Manufacturing Hollow Turbine Blade Based on Stereolithgraphy

Author: Qiang Yang, Zhongliang Lu, Fuxiang Huang and Dichen Li

Abstract: A new water-soluble calcia-based integral ceramic mold was developed for hollow turbine blade by combining stereolithography and gel casting. The influences of solid loading, and grain gradation on the rheological property of calcium carbonate ceramic slurry was investigated. For the more, the effect of zirconia additions on the hydration resistance of calcia-based ceramic mold was studied. The results show that the calcium carbonate ceramic slurry with 60 vol % solid loading and 0.83 Pa·s viscosity was obtained by three graded grain gradation with 40μm:5μm:2μm=56:5:39. The drying shrinkage of green body is less than 0.08% by vacuum freeze drying and zirconia can improve the hydration resistance of calcia-based ceramic mold significantly. The slurry of calcium carbonate ceramic can be used for manufacture the integral calcia-based ceramic mold for turbine blade and the calcia-based integral ceramic mold fabricated by this method can overcome the poor leachability of Al2O3 or SiO2 based ceramic molds and decrease the production costs.

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