Thermal design for enhanced temperature uniformity on spark plasma sintering device

IF 3.5 3区工程技术 Q1 MATHEMATICS, APPLIED

Finite Elements in Analysis and Design Pub Date : 2024-06-25 DOI:10.1016/j.finel.2024.104208

Hyung Mo Bae , Namkyu Lee , Ho-Seong Sohn , Hyung Hee Cho

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引用次数: 0

Abstract

Spark plasma sintering (SPS) is a widely used technique for sintering thermoelectric devices. In this process, the heat generated by Joule heating is primarily transferred to the die surface through radiative heat transfer, causing temperature non-uniformity within the specimen. These discrepancies in temperature distribution cause localized changes in the properties of the thermoelectric device, which presents significant engineering challenges in managing heat transfer during the sintering process. This study proposes a thermal design approach to reduce the temperature gradient within the specimen in the existing SPS device. The idea of the auxiliary heating system was evaluated using numerical simulation validated with experimental comparison. Design variables, heating power (an operating parameter) and heater depth (a geometric parameter), were chosen to balance the amount of Joule heating to the heat produced by the auxiliary heating system. The optimization process with sensitivity analysis led to the selection of an auxiliary heating system capable of reducing the temperature gradient within 61.1 K/m. This achievement allows for the sintering of thermoelectric devices with enhanced thermoelectric performance.

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提高火花等离子烧结装置温度均匀性的热设计

火花等离子烧结（SPS）是一种广泛用于烧结热电设备的技术。在此过程中，焦耳加热产生的热量主要通过辐射传热传递到模具表面，导致试样内部温度不均匀。这些温度分布差异会导致热电设备的性能发生局部变化，这给烧结过程中的热传导管理带来了巨大的工程挑战。本研究提出了一种热设计方法，以减少现有 SPS 设备中试样内的温度梯度。通过数值模拟和实验对比，对辅助加热系统的想法进行了评估。设计变量、加热功率（操作参数）和加热器深度（几何参数）的选择是为了平衡焦耳加热量和辅助加热系统产生的热量。通过灵敏度分析的优化过程，最终选择了一种能够将温度梯度降低到 61.1 K/m 以内的辅助加热系统。这一成果使得热电设备的烧结具有更高的热电性能。

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

Finite Elements in Analysis and Design 工程技术-力学

CiteScore

4.80

自引率

3.20%

发文量

审稿时长

27 days

期刊介绍： The aim of this journal is to provide ideas and information involving the use of the finite element method and its variants, both in scientific inquiry and in professional practice. The scope is intentionally broad, encompassing use of the finite element method in engineering as well as the pure and applied sciences. The emphasis of the journal will be the development and use of numerical procedures to solve practical problems, although contributions relating to the mathematical and theoretical foundations and computer implementation of numerical methods are likewise welcomed. Review articles presenting unbiased and comprehensive reviews of state-of-the-art topics will also be accommodated.