内部加压钢环爆裂

IF 1 4区工程技术 Q4 ENGINEERING, MECHANICAL

Journal of Pressure Vessel Technology-Transactions of the Asme Pub Date : 2023-04-27 DOI:10.1115/1.4062432

J. Błachut

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引用次数: 0

摘要

本文首先推导了包括后颈段在内的真应力-真应变数据。过去10毫米直径圆形和200毫米长低碳钢试样的单轴试验结果是转换的基础。有问题的钢材被用来制造10个环形圆顶，这些圆顶在过去进行了爆炸测试。因此，匹配材料模型对有限元分析是必要的。在过去，塑性不稳定性和塑性应变大小的约束被假定为内压环面破裂的准则。这些爆破压力标准正在根据试验进行审查和基准测试。目前的论文，使用有限元分析，表明对塑性应变约束的修改对爆炸只有边际影响，爆炸仍然在测试数据的不安全方面有相当大的余量。对于塑性失稳判据也是如此。随后的计算又回到了使用工程应力-应变法。在此基础上进行了两种计算:基于材料的多段建模和双线性建模。爆破压力计算结果与试验数据一致，在(-6%，+10%)范围内。这些结果比以前的都好得多。

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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Burst of internally Pressurised Steel Torispheres

The paper begins with derivation of true stress - true strain data, including post-necking section. Available results of past uni-axial tests on round 10 mm diameter and 200 mm long mild steel samples are the basis of the conversion. The steel in question was used to manufacture ten torispherical domes which were in the past tested for burst. Hence the relevance of matching material model necessary for the FE analyses. In the past plastic instability and constraints on the magnitude of plastic strains were postulated as criteria for the burst of internally pressurised torispheres. These criteria for burstpressure are being examined and benchmarked against the tests. The current paper, using the FE analyses, shows that modification of constraints on plastic strains has only marginal effect on the burst which still remains on the unsafe side of test data by a sizeable margin. The same is found to be true for plastic instability criterion. Subsequent computations moved back to the use of engineering stress-strain. Then two types of computing are carried out here, based on: multi-segment and bilinear modelling of material. Computed results of burst pressure follow the test data to within (-6%, +10%). These results are far better than all the previous.

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来源期刊

Journal of Pressure Vessel Technology-Transactions of the Asme 工程技术-工程：机械

CiteScore

2.10

自引率

10.00%

发文量

审稿时长

4.2 months

期刊介绍： The Journal of Pressure Vessel Technology is the premier publication for the highest-quality research and interpretive reports on the design, analysis, materials, fabrication, construction, inspection, operation, and failure prevention of pressure vessels, piping, pipelines, power and heating boilers, heat exchangers, reaction vessels, pumps, valves, and other pressure and temperature-bearing components, as well as the nondestructive evaluation of critical components in mechanical engineering applications. Not only does the Journal cover all topics dealing with the design and analysis of pressure vessels, piping, and components, but it also contains discussions of their related codes and standards. Applicable pressure technology areas of interest include: Dynamic and seismic analysis; Equipment qualification; Fabrication; Welding processes and integrity; Operation of vessels and piping; Fatigue and fracture prediction; Finite and boundary element methods; Fluid-structure interaction; High pressure engineering; Elevated temperature analysis and design; Inelastic analysis; Life extension; Lifeline earthquake engineering; PVP materials and their property databases; NDE; safety and reliability; Verification and qualification of software.