Investigations on the production and forming of thermoplastic ceramic green tapes

Materials Research Proceedings Pub Date : 2024-05-15 DOI:10.21741/9781644903131-272

R. Tran

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Abstract

Abstract. Technical ceramics such as alumina with its temperature stability, high mechanical stiffness, and good dielectric strength at low density, meet the requirements for highly resilient components for promising markets of high-performance electronics and the electrification of mobility. Ceramic components are usually manufactured using powder technology processes since forming of sintered ceramics is not possible due to the lack of plasticity. In this work, we use hydroforming to shape thermoplastic ceramic green tapes prior to sintering to add a third dimension to flat substrates. We developed alumina feedstocks based on a polyamide binder system that were extruded to 1 mm thick tapes, hydroformed, debinded and sintered. Depending on the binder composition, forming temperatures of 45-60 °C were sufficient, whereby precise temperature control was crucial for success. As a result, components with forming depths of up to 5 mm were produced without defects. This process offers the potential to revolutionize this market segment, not only in terms of geometric design freedom and low material waste, but also in terms of profitability of mass production.

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热塑性陶瓷绿色胶带的生产和成型研究

摘要。氧化铝等技术陶瓷具有温度稳定性、高机械刚度和低密度下良好的介电强度，可满足高性能电子产品和移动设备电气化等前景广阔的市场对高弹性元件的要求。陶瓷元件通常采用粉末技术工艺制造，因为烧结陶瓷缺乏可塑性，无法成型。在这项工作中，我们采用水压成型技术，在烧结前对热塑性陶瓷绿带进行成型，从而为平面基底增加第三个维度。我们开发了基于聚酰胺粘合剂系统的氧化铝原料，将其挤压成 1 毫米厚的带子，然后进行水压成型、脱模和烧结。根据粘合剂成分的不同，成型温度为 45-60 °C即可，因此精确的温度控制是成功的关键。因此，成型深度达 5 毫米的部件在生产过程中不会出现缺陷。这种工艺不仅在几何设计自由度和低材料浪费方面，而且在批量生产的盈利能力方面，都为这一细分市场提供了革命性的潜力。

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Materials Research Proceedings

CiteScore

0.30

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0.00%

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