Mathematical modeling of heat microwave dielectric chamber in 3D printer

2016 International Conference on Actual Problems of Electron Devices Engineering (APEDE) Pub Date : 2016-09-01 DOI:10.1109/APEDE.2016.7879006

V. Y. Kozhevnikoff, I. V. Mashkov

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Abstract

One of the areas is a 3D printing frequency (RF) dielectric heating is used to intensify heat treatment of various dielectric materials used for constructing 3D models. Electrotechnological microwave system with 3D printer allows you to accelerate the process of prototyping, and eliminate disadvantages such as deformation of the object and resize when sintering at use as a material of clays and other ceramic precursors. During the heat treatment of solid dielectrics in microwave field significant temperature-deformations can occur in them. For processes such as drying of ceramics, for example, the occurrence of thermal deformations and cracks unacceptable. Considered program mathematical moderating the heating process of multilayer dielectric in a microwave chamber of the radial type. The dielectric acts polymer clay. Analyzed the advantages and disadvantages of the drying process of polymer clay in a microwave field. Shows the algorithm of the program, the output, and the options of the application of other fields of technology.

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3D打印机热微波介质室的数学建模

其中一个领域是3D打印频率(RF)，介质加热用于强化用于构建3D模型的各种介质材料的热处理。电子技术微波系统与3D打印机，让您加快原型的过程，并消除缺点，如物体的变形和调整尺寸，烧结时使用的粘土和其他陶瓷前体的材料。固体介质在微波场中热处理时，会发生明显的温度变形。例如，对于陶瓷干燥等过程，热变形和裂纹的发生是不可接受的。考虑了在辐射型微波室中多层介质加热过程的程序数学调节。电介质作用于聚合物粘土。分析了微波场下聚合物粘土干燥工艺的优缺点。显示了程序的算法，输出，以及其他技术领域应用的选项。

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

2016 International Conference on Actual Problems of Electron Devices Engineering (APEDE)

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