选择铁路桥梁支座材料以避免脆性断裂

ce/papers Pub Date : 2024-09-11 DOI:10.1002/cepa.3080

Natalie Hoyer, Bertram Kühn

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引用次数: 0

摘要

钢结构通常是针对钢韧性-温度曲线的上限范围设计的。为了考虑温度转换范围内韧性特性的降低，有必要进行额外的安全评估。这些评估依赖于断裂力学方面的考虑，并有助于选择适当的钢材来防止脆性断裂。考虑到这一背景，2011 年已提出建议，指导轴承部件钢材等级的适当选择。然而，根据最新的研究结果，这些建议已不再完全适用。因此，德国轨道交通研究中心发起了一个研究项目，旨在制定建议，扩大与合适材料选择相关的监管框架，以防止桥梁支座发生脆性断裂。

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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Material selection for railroad bridge bearings to avoid brittle fracture

Steel structures are typically engineered for the upper range of the steel toughness-temperature curve. To account for the reduction in toughness properties within the temperature transition range, additional safety assessments are necessary. These assessments rely on fracture mechanics considerations and enable the selection of an adequate steel material to prevent brittle fracture. Considering this context, recommendations were already put forth in 2011 to govern the appropriate choice of steel grades for bearing components. However, these recommendations are no longer entirely current in light of more recent findings. As a result, the German Centre for Rail Traffic Research has called a research project with the aim to formulate proposals to expand the regulatory framework related to suitable material selection, aimed at preventing brittle fracture in bridge bearings.

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