Correlation of deformation with damage progression behavior around a notch tip under creep and fatigue conditions for W-added 9Cr steel including weld joint

IF 0.4 Q4 MATERIALS SCIENCE, CHARACTERIZATION & TESTING

Strength Fracture and Complexity Pub Date : 2022-05-04 DOI:10.3233/sfc-228010

A. Yokobori, Haruki Ishikawa, R. Sugiura, T. Ohmi, M. Tabuchi

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引用次数: 0

Abstract

Research concerning heat-resistant steels for the application in fossil-fired power plants has progressed remarkably during the past 60 years. This has resulted in improvements in the electrical efficiency of fossil-fired power plants. Currently, there are plans and programs to develop ultra-supercritical plants designed to operate at steam temperature and pressure conditions of 600/650 °C and 32 MPa. The W-added 9%Cr ferritic heat-resistant steel, that is, ASME grade P92, has been developed as a boiler material for this ultra-supercritical plant. Boiler materials, whose performance is critical for ultra-supercritical plant, are required to possess high creep resistant properties. In addition, these materials are exposed to fatigue induced by thermal stresses, that is, they are operated under creep-fatigue interacting conditions. In this study, mechanical tests under the condition of high temperature creep-fatigue interaction were conducted for P92 steel under stress-controlled and various load frequency conditions using the in-situ observational creep-fatigue testing machine to observe the damage formation behavior around a notch tip composed of voids in mesoscale. On the basis of these results, the effects of damage formation behavior on crack growth life were clarified. Furthermore, for the case of creep deformation, the numerical analyses of vacancy diffusion and concentration around a notch tip were conducted using our proposed numerical method of local stress-induced vacancy diffusion behavior, which is a nanoscale phenomenon to relate these behaviors to the damage formation behavior in mesoscale (μm scale).

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添加w的9Cr钢(含焊缝)在蠕变和疲劳条件下缺口尖端变形与损伤进展行为的相关性

在过去的60年里，用于火力发电厂的耐热钢的研究取得了显著的进展。这导致了化石燃料发电厂电力效率的提高。目前，有计划和项目开发超超临界电厂，设计在600/650°C和32 MPa的蒸汽温度和压力条件下运行。研制了添加w的9%Cr铁素体耐热钢，即ASME等级P92，作为该超超临界装置的锅炉材料。锅炉材料的抗蠕变性能对超超临界电厂至关重要。此外，这些材料暴露在热应力引起的疲劳下，即在蠕变-疲劳相互作用条件下工作。本研究利用原位观察蠕变疲劳试验机对P92钢在应力控制和不同载荷频率条件下进行高温蠕变-疲劳相互作用条件下的力学试验，在细观尺度上观察由孔洞组成的缺口尖端周围的损伤形成行为。在此基础上，阐明了损伤形成行为对裂纹扩展寿命的影响。此外，在蠕变情况下，采用本文提出的纳米尺度局部应力诱导空位扩散行为的数值方法，对缺口尖端附近的空位扩散和浓度进行了数值分析，并将这些行为与中尺度(μm尺度)损伤形成行为联系起来。

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.