直流等离子体过程下用于能源结构应用材料结构分析的光学粗糙度计算

Q3 Environmental Science

Acta Innovations Pub Date : 2023-09-24 DOI:10.32933/49.4

Alper Pahsa

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引用次数: 0

摘要

铝的表面质量使其成为低直流等离子体相互作用的候选材料。实验研究了用于能源系统结构构建的铝，并获得了观察结果。铝价格低廉，经常用于航空航天领域。为热核聚变能的新应用（如托卡马克反应堆壁和基于聚变的飞船推力结构）选择材料是设计阶段的重要决定。在本研究中，使用低直流型 He 等离子体离子在铝颗粒表面进行处理，创建了一个实验装置应用。在扫描阵列显微镜和三维表面图下分析了作为能源结构表面示例的铝丸材料的物理变化，以检测光学粗糙度属性。

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Optical roughness calculation for material structural analysis of energy structure applications under dc plasma processes

Surface qualities make aluminium a low-DC plasma interaction candidate. Aluminum for energy system structure building is studied experimentally, with observations obtained. Aluminum is cheap and frequently utilized in aerospace applications. The selection of materials for new applications of thermonuclear fusion energy, such as Tokamak reactor walls and fusion-based spaceship thrust structures, is important to decide in the design phase. In this study, an experimental setup application is created with low DC-type He plasma ions processed on aluminium pellet surfaces. The physical changes of the aluminium pellet material as an example of an energy structure surface are analysed under a scanned array microscope and 3D surface plots to detect optical roughness attributes.

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来源期刊

Acta Innovations Environmental Science-Environmental Engineering

CiteScore

3.90

自引率

0.00%

发文量

审稿时长

16 weeks