Investigations on Usability of Undermatched Joint in a Superconducting Coil Case for Fusion Reactor

Transactions of the Japan Welding Society Pub Date : 1900-01-01 DOI:10.2207/QJJWS.9.575

Toshimi Matsurnoto, M. Tsukamoto, F. Suzuki, Y. Wadayama, H. Satoh

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引用次数: 2

Abstract

In a Power Fusion Reactor, a huge megnetic field is necessary for plasma confinement. This field also interacts with the high current to produce large forces tending to deform the superconducting cables ; this electro-magnetic force demands very high values of the cryogenic yield strength and fracture toughness in the supporting structural materials. It is said to be difficult to develop welds satisfing the same criteria as for the structural material. It is useful to investigate the usability of welded joint with a lower yield strength than the base metal, but associated with a higher fracture toughness.From this viewpoint, the influence of the undermatched joint on the deformation and the stressstrain property of the coil case was investigated by using a finite element method. It is concluded that (1) there is only a slight difference in the overall deformation of the coil case whether the undermatched joint is included in the calculation or not, (2) the maximum strain and the muximum plastic strain at the undermatched welds can be controlled to be less than those in the base metal with a judicious choice of weld location and yield strength level of welds.

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核聚变反应堆超导线圈箱欠匹配接头可用性研究

在功率聚变反应堆中，巨大的磁场是等离子体约束所必需的。该磁场还与大电流相互作用，产生较大的力，使超导电缆变形;这种电磁力对支撑结构材料的低温屈服强度和断裂韧性要求很高。据说很难开发出满足结构材料相同标准的焊缝。研究屈服强度低于母材但具有较高断裂韧性的焊接接头的可用性是有用的。从这个角度出发，采用有限元方法研究了欠匹配接头对线圈壳体变形和应力应变性能的影响。结果表明:(1)不考虑欠匹配接头对卷壳整体变形的影响不大;(2)合理选择焊缝位置和焊缝屈服强度水平，可使欠匹配焊缝的最大应变和最大塑性应变小于母材。

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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Transactions of the Japan Welding Society

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