Effect of print direction on mechanical properties of 3D printed polymer-derived ceramics and their precursors

IF 2.2 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY
Stephan A. Brinckmann , Jason C. Young , Ray S. Fertig III , Carl P. Frick
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引用次数: 0

Abstract

The use of engineering ceramics with intricate geometries is limited by manufacturing processes and lack ease of machinability of ceramics. Additive manufacturing of pre-ceramic polymers which are pyrolyzed into ceramics after 3D printing has recently been used to circumvent traditional manufacturing processes creating ceramics with complex geometries, however, mechanical characterization is limited. Polymer-derived ceramics and their green-body precursors are printed using digital light projection 3D printing in two orientations (0°- and 90°- to the build plate) and mechanically characterized. The results show that mechanical anisotropy exists both in the green-body polymer samples where the 0°-samples are stronger and stiffer than their 90°-counterparts and the final ceramics, where the stronger samples are fabricated at 90° despite isotropic hardness measurements. Through the manufacturing process, it was noted that samples undergoing pyrolysis built in the 90°-orientation have a pyrolysis survival rate of 94% whereas the 0°-samples showed a survival rate of 54%. The results suggest that the build-direction of 3D printed green-bodies plays a role in both material manufacturing and mechanical integrity of the final ceramic materials.

打印方向对3D打印聚合物衍生陶瓷及其前驱体力学性能的影响
具有复杂几何形状的工程陶瓷的使用受到制造工艺的限制,并且缺乏陶瓷的易加工性。3D打印后热解成陶瓷的预陶瓷聚合物的增材制造最近被用来规避传统的制造工艺,从而产生具有复杂几何形状的陶瓷,然而,机械表征是有限的。聚合物衍生陶瓷及其绿体前驱体使用数字光投影3D打印在两个方向(与构建板成0°和90°)上进行打印,并进行机械表征。结果表明,在生坯聚合物样品和最终陶瓷中都存在机械各向异性,其中0°样品比90°样品更强、更硬,尽管进行了各向同性硬度测量,但更强的样品是在90°下制造的。在制造过程中,注意到在90°方位进行热解的样品的热解存活率为94%,而0°方位的样品显示出54%的存活率。结果表明,3D打印生坯的构建方向对最终陶瓷材料的材料制造和机械完整性都有影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
3.10
自引率
0.00%
发文量
50
审稿时长
114 days
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