Estimation of Bolt Creep Characteristics and Sealing Performance of Flanged Joints

Hiroshi Yamanaka
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Abstract

In the published standards, selection criteria for bolt materials for high temperature and high pressure environments (exceeding 540°C (1000°F) and 300 lb) has not been specified. In addition, it seems that there are few studies that summarize how the initial bolt load and the flange nominal diameter affect the change over time of the bolt load under a high temperature environment. This paper proposed formulas to calculate the changes over time in bolt stress and gasket stress easily due to bolt creep by applying the mechanical relationship of bolted flange joint. The changes over time in the bolt stress and the gasket stress calculated by the proposed formulas were fairly good agreement with the FEM and the experiments. By utilizing proposed formulas, it is possible to predict when retightening should be carried out for bolted flange joints operated continuously for a long period of time. Furthermore, in the present paper, the effects of initial bolt load, internal pressure, bolt materials, and flange nominal diameters on the sealing performance under high temperature environments are clarified by utilizing proposed formulas and FEM. As a result, this paper shows that the increasing initial bolt load against bolt creep under a high temperature environment can not be expected to be effective, and that the size of internal pressure and flange nominal diameter has small effects on the change over time of bolt load.
法兰连接螺栓蠕变特性及密封性能评估
在已发布的标准中,没有规定高温高压环境(超过540°C(1000°F)和300磅)螺栓材料的选择标准。此外,似乎很少有研究总结了高温环境下螺栓初始载荷和法兰公称直径如何影响螺栓载荷随时间的变化。本文利用螺栓法兰连接的力学关系,提出了易于计算螺栓蠕变引起的螺栓应力和垫片应力随时间变化的公式。所建公式计算的螺栓应力和垫片应力随时间的变化与有限元和试验结果吻合较好。利用所提出的公式,可以预测长时间连续运行的螺栓法兰连接何时应进行重新紧固。此外,本文还利用所提出的公式和有限元方法,阐明了螺栓初始载荷、内压、螺栓材料和法兰公称直径对高温环境下密封性能的影响。结果表明,在高温环境下,增加螺栓初始载荷对螺栓蠕变的影响不能指望有效,内压和法兰公称直径的大小对螺栓载荷随时间的变化影响较小。
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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