Creep, fatigue, and creep-fatigue crack growth behaviours of P92 steel at 600 °C

IF 0.4 Q4 MATERIALS SCIENCE, CHARACTERIZATION & TESTING

Strength Fracture and Complexity Pub Date : 2022-05-06 DOI:10.3233/sfc-228003

N. Alang, K. Nikbin

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引用次数: 0

Abstract

High-temperature components in power generation plant are exposed to creep, fatigue, and creep-fatigue environment during service. The components are usually under multiaxial state of stress condition. Understanding how the material behaves under these loading and environment is essential in order to sustain and keep the plant safe. The present paper aims to investigate the creep rupture and crack growth behaviours of P92 steel at 600 °C. For creep rupture test, notched bars with two different notch radii were prepared and tested under creep condition between 250 and 3500 hours at 600 °C, while the C-shaped specimen was prepared for fatigue and creep-fatigue crack growth tests. The material tested under creep condition showed notch strengthening effect where the life of notched bar specimen increased compared to smooth specimens when the net stress against creep time data was plotted. The effect was more significant as the notch radius decreased. It was also observed that the rupture life of all specimens was von-Mises stress controlled. Based on the fatigue test, it was found that the frequency in a range of 0.1 Hz–10 Hz was insignificantly affecting the crack growth rate. Under creep-fatigue, however, the material showed frequency-dependent behaviour. Observation on the fracture surface revealed that the ductile dimple associated with plasticity was dominant for all creep specimens. In addition, frequency independent specimen was associated with the transgranular fracture, thus flat appearance was evident, while fracture surface of frequency dependent specimen was roughly associated with intergranular fracture.

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P92钢在600°C下的蠕变、疲劳和蠕变疲劳裂纹扩展行为

电站高温部件在使用过程中处于蠕变、疲劳和蠕变-疲劳环境中。构件通常处于多轴应力状态。了解材料在这些载荷和环境下的行为是维持和保持工厂安全的必要条件。本文旨在研究P92钢在600℃时的蠕变断裂和裂纹扩展行为。在蠕变断裂试验中，制备了两种不同缺口半径的缺口棒，并在600℃的蠕变条件下进行了250 ~ 3500小时的蠕变试验，同时制备了C形试样进行疲劳和蠕变-疲劳裂纹扩展试验。在蠕变条件下，材料表现出缺口强化效应，缺口试件的寿命比光滑试件有所提高。切迹半径越小，效果越显著。所有试样的断裂寿命均受von-Mises应力控制。疲劳试验发现，0.1 Hz ~ 10 Hz范围内的频率对裂纹扩展速率影响不显著。然而，在蠕变疲劳下，材料表现出频率依赖行为。对断裂表面的观察表明，在所有蠕变试样中，与塑性相关的韧性韧窝占主导地位。频率无关试样的断面与穿晶断口相关，呈明显的平面状，而频率无关试样的断面大致与沿晶断口相关。

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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来源期刊

Strength Fracture and Complexity MATERIALS SCIENCE, CHARACTERIZATION & TESTING-

CiteScore

1.30

自引率

0.00%

发文量

期刊介绍： Strength, Fracture and Complexity: An International Journal is devoted to solve the strength and fracture unifiedly in non linear and systematised manner as complexity system. An attempt is welcome to challenge to get the clue to a new paradigm or to studies by fusing nano, meso microstructural, continuum and large scaling approach. The concept, theoretical and/or experimental, respectively are/is welcome. On the other hand the presentation of the knowledge-based data for the aims is welcome, being useful for the knowledge-based accumulation. Also, deformation and fracture in geophysics and geotechnology may be another one of interesting subjects, for instance, in relation to earthquake science and engineering.