HIGH-CYCLE FATIGUE PROPERTIES AND DAMAGE MECHANISM OF Q345B STRUCTURAL STEEL

Hu X. L.; Liu Y. J.; Khan M. K.; Wang Q. Y.

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HIGH-CYCLE FATIGUE PROPERTIES AND DAMAGE MECHANISM OF Q345B STRUCTURAL STEEL

机译：Q345B结构钢的高周疲劳性能及损伤机理

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The high-cycle fatigue behavior of Q345B structural steel was investigated experimentally. Highfrequency vibration fatigue testing machine and scanning electron microscopy were used to study the high-cycle fatigue S-N curve characteristics and crack initiation mechanism at ambient temperature. The surface temperature of the specimens was monitored. The relation between the fatigue limit and the amount of heat dissipation was also investigated. It was found that the fatigue life changed inversely with the stress amplitude in the high-cycle range. The fatigue limit in high cycle range was obtained from heat dissipation in the specimen and found to have good agreement with the S-N curve. The crack initiation was attributed to the surface defects and the persistent slip bands due to the cycle slip in fatigue loading.

机译：实验研究了Q345B结构钢的高周疲劳行为。高频振动疲劳试验机和扫描电子显微镜用于研究环境温度的高循环疲劳S-N曲线特性和裂纹启动机制。监测样品的表面温度。还研究了疲劳极限与散热量之间的关系。发现疲劳寿命与高循环范围内的应力幅度相反地变化。高循环范围内的疲劳极限从标本中的散热中获得，发现与S-N曲线具有良好的一致性。由于疲劳负载中的循环滑移，裂纹启动归因于表面缺陷和持续滑带。

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来源
《Strength of Materials》 |2017年第1期|共8页
作者
Hu X. L.; Liu Y. J.; Khan M. K.; Wang Q. Y.;
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作者单位

Sichuan Univ Coll Architecture &

Environm Minist Educ Key Lab Energy Engn Safety &

Disaster Mech Chengdu Peoples R China;

Sichuan Univ Coll Architecture &

Environm Minist Educ Key Lab Energy Engn Safety &

Disaster Mech Chengdu Peoples R China;

Coventry Univ Fac Engineerint &

Comp Coventry W Midlands England;

Sichuan Univ Coll Architecture &

Environm Minist Educ Key Lab Energy Engn Safety &

Disaster Mech Chengdu Peoples R China;

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原文格式 PDF
正文语种 eng
中图分类工程材料学;
关键词
Q345B structural steel; high-cycle fatigue; heat dissipation; fatigue strength; fatigue crack initiation mechanism;

机译：Q345B结构钢;高循环疲劳;散热;疲劳强度;疲劳裂纹启动机制;

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专利

1. HIGH-CYCLE FATIGUE PROPERTIES AND DAMAGE MECHANISM OF Q345B STRUCTURAL STEEL [J] . Hu X. L., Liu Y. J., Khan M. K., Strength of Materials . 2017,第1期

机译：Q345B结构钢的高周疲劳性能及损伤机理
2. Very high-cycle fatigue properties and microstructural damage mechanisms of selective laser melted AlSi10Mg alloy [J] . Awd Mustafa, Siddique Shafaqat, Johannsen Jan, International Journal of Fatigue . 2019,第JULa期

机译：选择性激光熔化的AlSi10Mg合金的极高循环疲劳性能和微结构破坏机理
3. Very high-cycle fatigue properties and microstructural damage mechanisms of selective laser melted AlSi10Mg alloy [J] . Awd Mustafa, Siddique Shafaqat, Johannsen Jan, International Journal of Fatigue . 2019,第Jula期

机译：选择性激光熔化Alsi10mg合金的非常高循环疲劳性能和微观结构损伤机制
4. EVALUATION OF THREE-DIMENSIONAL MICROSTRUCTURAL EFFECTS ON DAMAGE EVOLUTION DURING VHCF LOADING OF A DUPLEX STAINLESS STEEL - MECHANISMS OF DAMAGE EVOLUTION AND CORRESPONDING FATIGUE LIFE [C] . A. Giertler, N. Heilemann, B. Donges International Conference on Very High Cycle Fatigue . 2017

机译：双工不锈钢VHCF负荷损伤进化的三维微观结构效应评价 - 损伤进化机制及相应的疲劳寿命
5. Investigation of the use of carbon fibre patches for the repair of fatigue damage in structural steel [D] . Cole, Garrett Lee 2011

机译：碳纤维补片修复结构钢疲劳损伤的研究
6. Damage Mechanisms and Mechanical Properties of High-Strength Multiphase Steels [O] . Sebastian Heibel, Thomas Dettinger, Winfried Nester, 2018

机译：高强度多相钢的损伤机理与力学性能
7. High-Cycle Fatigue Properties of Modified-Ausformed SCM440 Steels. 1st Report. Fatigue Properties of 1600MPa-Class Quenched and Tempered Steels and Modified-Ausformed and Tempered Steels. [O] . Yoshiyuki FURUYA, Saburo MATSUOKA, Shusaku TAKAGI 2002

机译：改性 - 空转SCM440钢的高周疲劳性能。第一个报告。 1600MPA级淬火和钢化钢的疲劳性能和改性 - 空转钢和钢化钢。

HIGH-CYCLE FATIGUE PROPERTIES AND DAMAGE MECHANISM OF Q345B STRUCTURAL STEEL

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