Design Optimization for Shear Key on the TF Coil Structure of the KSTAR Tokamak

Lee D. S.; Kwon Y. D.; Han J. S.

首页> 外文期刊>Strength of Materials >Design Optimization for Shear Key on the TF Coil Structure of the KSTAR Tokamak

【24h】

Design Optimization for Shear Key on the TF Coil Structure of the KSTAR Tokamak

机译：KSTAR TOKAMAK TF线圈结构剪切键设计优化

获取原文

获取原文并翻译 | 示例

掌桥外文数据库（机构版） >>

开具论文收录证明 >>

文献代查 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

The KSTAR Tokamak is comprised of a magnet system, vacuum vessel, and cryostat, thereby facilitating vacuum conditions for plasma gas at high temperatures, along with low-temperature helium gas for cooling. The TF coil structure, a part of the magnet system, is constructed and jointed with 16 pieces at 22.5-degree intervals using a conical bolt and shear key. The main function of the shear key in the inner and outer inter-coil structures is to resist in-plane and out-of-plane forces and to increase the shear stiffness for the inter coil structures. However, since the shape of the shear key is difficult to produce and can incur high costs, the shear key needs to be dimensionally optimized to regularize the stress between the key and the structure. Accordingly, shape optimization of the shear key was carried out using the Taguchi method and the stresses analyzed by ANSYS.

机译：Kstar Tokamak由磁体系统，真空容器和低温恒温器组成，从而促进在高温下的等离子体气体的真空条件，以及用于冷却的低温氦气。 TF线圈结构是磁体系统的一部分，使用锥形螺栓和剪切键以22.5度的间隔构造和接合16件。内部线圈结构中的剪切键的主要功能是抵抗平面内和面外力，并增加线圈结构的剪切刚度。然而，由于剪切键的形状难以产生并且可以产生高成本，因此需要尺寸优化剪切键，以规范钥匙和结构之间的应力。因此，使用Taguchi方法和由Ansys分析的应力进行剪切键的形状优化。

著录项

来源
《Strength of Materials》 |2016年第1期|共7页
作者
Lee D. S.; Kwon Y. D.; Han J. S.;
展开▼
作者单位

Yeungjin Coll Div Comp Aided Mech Engn Daegu South Korea;

Kyungpook Natl Univ Dept Mech Engn Daegu South Korea;

Kyungpook Natl Univ Grad Sch Daegu South Korea;

展开▼
收录信息
原文格式 PDF
正文语种 eng
中图分类工程材料学;
关键词
KSTAR; Taguchi method; optimization; shear key; TF (toroidal field) coil structure;

机译：KSTAR;TAGUCHI方法;优化;剪切键;TF（环形场）线圈结构;

相似文献

外文文献
中文文献
专利

1. Performance of a New Ion Source for KSTAR Tokamak Plasma Heating [J] . Tae-Seong KIM, Seung Ho JEONG, Doo Hee CHANG, 等离子体科学和技术（英文版） . 2014,第006期
2. Design Optimization for Shear Key on the TF Coil Structure of the KSTAR Tokamak [J] . Lee D. S., Kwon Y. D., Han J. S. Strength of Materials . 2016,第1期

机译：KSTAR Tokamak TF线圈结构上的剪切键设计优化
3. Design Optimization for Shear Key on the TF Coil Structure of the KSTAR Tokamak [J] . Lee D. S., Kwon Y. D., Han J. S. Strength of Materials . 2016,第1期

机译：KSTAR TOKAMAK TF线圈结构剪切键设计优化
4. A study on design optimization of conical bolt in the TF coil structure of the KSTAR Tokamak [J] . Kwon YD, Lee DS International Journal of Modern Physics, B. Condensed Matter Physics, Statistical Physics, Applied Physics . 2006,第25a27期

机译：KSTAR Tokamak TF线圈结构中锥形螺栓的设计优化研究
5. Cryogenic process optimization for simultaneous cool down of the TF and PF superconducting coils of SST-1 Tokamak [C] . P Panchal, R Panchal, R Patel International Cryogenics Engineering Conference . 2019

机译：SST-1 Tokamak的TF和PF超导线圈同时冷却的低温过程优化
6. Computationally Designed Coiled Coil Peptides for the Solution Assembly of Nanostructured Materials [D] . Haider, Michael John, II 2018

机译：用于纳米结构材料溶液组装的计算设计的卷曲螺旋肽
7. Structure based design of a Grp94-selective inhibitor: Exploiting a keyresidue in Grp94 to optimize paralog-selective binding [O] . Nanette L. S. Que, Vincent M. Crowley, Adam S. Duerfeldt, -1

机译：Grp94选择性抑制剂的基于结构的设计：利用关键Grp94中的残基可优化旁系选择性结合
8. Progress on in-vessel poloidal field coils optimization design for alternative divertor configuration studies on the EAST tokamak [O] . B.J. Xiao, Z.P. Luo, H. Li, 2019

机译：船舶占地面线圈优化设计的进展，以替代脚轮配置研究
9. Structural Design and Analysis for the ISX-C/ATF Tokamak of the Vacuum Vessel, Coil Joints, and Supports [R] . Mayhall, J. A., Cain, W. D., Hammonds, C. J., 1981

机译：真空容器，线圈接头和支架的IsX-C / aTF托卡马克的结构设计和分析

Design Optimization for Shear Key on the TF Coil Structure of the KSTAR Tokamak

摘要

著录项

相似文献

相关主题

期刊订阅