基于损伤力学的汽车起重机构件韧性评估新方法

IF 1.2 Q3 CONSTRUCTION & BUILDING TECHNOLOGY

Steel Construction-Design and Research Pub Date : 2022-05-01 DOI:10.1002/stco.202100041

Dong-wei Li, M. Könemann, Michael Dölz, S. Münstermann

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引用次数: 0

摘要

在标准夏比或断裂力学试验中，韧性特性的表征要求满足厚度要求。因此，表征薄壁结构的韧性是一个问题。用冲击缺口拉伸试验代替夏比冲击韧性试验可以解决这一问题。然而，韧性要求仍然用标准试验结果来表示。因此，本文提出了将这些标准试验要求转化为冲击缺口拉伸试验要求的框架。所提出的框架依赖于具有现象学损伤力学模型的数值模拟，该模型使用依赖于应力状态、基于应变的准则来预测局部损伤和全局断裂。该模型考虑了非比例应变路径的影响，并对解理和韧性断裂采用了不同的准则，以便在相应的数值模拟中正确预测解理和韧性断裂机制的激活。

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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A new method for the toughness assessment of mobile crane components based on damage mechanics

The characterization of toughness properties in standard Charpy or fracture mechanics tests calls for thickness requirements to be met. Therefore, the characterization of toughness properties is a problem for thin‐walled structures. Replacing Charpy impact toughness testing by impact notch tensile testing can solve this problem. However, the toughness requirements are still expressed in terms of standard test results. Therefore, a framework is proposed here for translating these standard test requirements into impact notch tensile test requirements. The proposed framework relies on numerical simulations with a phenomenological damage mechanics model, which uses state‐of‐stress‐dependent, strain‐based criteria for the prediction of local damage and global fracture. This model takes the effects of non‐proportional strain paths into account and applies different criteria for cleavage and ductile fracture in order to predict correctly the activation of cleavage and ductile fracture mechanisms in the corresponding numerical simulations.

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来源期刊

Steel Construction-Design and Research CONSTRUCTION & BUILDING TECHNOLOGY-

CiteScore

3.00

自引率

6.20%

发文量

期刊介绍： Steel Construction publishes peerreviewed papers covering the entire field of steel construction research. In the interests of "construction without depletion", it skilfully combines steel with other forms of construction employing concrete, glass, cables and membranes to form integrated steelwork systems. Since 2010 Steel Construction is the official journal for ECCS- European Convention for Constructional Steelwork members. You will find more information about membership on the ECCS homepage. Topics include: -Design and construction of structures -Methods of analysis and calculation -Experimental and theoretical research projects and results -Composite construction -Steel buildings and bridges -Cable and membrane structures -Structural glazing -Masts and towers -Vessels, cranes and hydraulic engineering structures -Fire protection -Lightweight structures