Bifurcation Buckling Analysis and Non-Linear Collapse Analysis of Teardrop Shaped Vacuum Chamber

Hao Jiang, C. Barbier, B. Riemer
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Abstract

The Spallation Neutron Source (SNS) accelerator is being upgraded to increase the beam power from 1.4MW at 1GeV to 2.8MW at 1.3GeV. The currents in the middle two injection chicane magnets cannot simply be scaled up to accommodate the increased injection energy of 1.3GeV due to potential excessive H− stripping; the magnets must be replaced with longer, lower-field magnets and the associated vacuum chambers need to be redesigned. A new teardrop-shaped vacuum chamber was initially designed to accommodate the new magnets and the updated beam paths and instrumentation. This paper focuses on the structural stability study of the teardrop shape vacuum chamber based on buckling analysis. Protection against collapse from buckling according to the ASME BPVC requirement has been evaluated in depth. First, a Type-1 bifurcation buckling analysis using a linear eigenvalue solution to determine the critical load factor was performed. Subsequently, a Type-3 nonlinear collapse analysis was conducted using the static Riks method with elastic-plastic material properties and imperfections explicitly considered in the model geometry. The critical buckling load for the teardrop shape vacuum chamber was confidently estimated based upon this two-stage approach.
泪滴型真空室的分岔屈曲分析及非线性坍塌分析
散裂中子源(SNS)加速器正在升级,以将光束功率从1GeV时的1.4MW增加到1.3GeV时的2.8MW。由于潜在的过量H -剥离,中间两个注入弯道磁体的电流不能简单地放大以适应增加的1.3GeV注入能量;磁体必须更换为更长、低磁场的磁体,相关的真空室需要重新设计。最初设计了一个新的泪滴形真空室,以容纳新的磁体和更新的光束路径和仪器。本文主要研究了基于屈曲分析的泪滴型真空室的结构稳定性。根据ASME BPVC要求,对抗屈曲坍塌防护进行了深入评估。首先,利用线性特征值解进行了1型分岔屈曲分析,以确定临界载荷因子。随后,采用静态Riks方法进行了3型非线性倒塌分析,并在模型几何中明确考虑了材料的弹塑性特性和缺陷。基于此两阶段方法,对泪滴型真空室的临界屈曲载荷进行了较为可靠的估计。
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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