Formation of optical dark area (ODA) on high-cycle fatigue fracture surface of Al–Cu–Mg alloy at atmosphere induced by inner friction

Xinxiang Yu; Zhiguo Zhao; Dandan Shi; Xianli Shi; Yanli Jie; Wei Feng; Han Dai

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Formation of optical dark area (ODA) on high-cycle fatigue fracture surface of Al–Cu–Mg alloy at atmosphere induced by inner friction

机译：在内部摩擦诱导的大气诱导的大气中的高循环疲劳断裂表面上形成光学暗区（ODA）

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摘要

The formation of optical dark area (ODA) on high-cycle fatigue fracture surface of Al alloys at atmosphere is very common and questionable in the engineering fields. Herein, we discovered that the oxygen induced inner friction causes the serious Cu element segregation in the form of nanoparticles on the fatigue fracture surface at atmosphere, which forms the ODA in Al–Cu–Mg alloy. By increasing stress ratio or applying Vaseline coatings fatigue tests, the ODA can be absolutely eliminated simultaneously with a significant extension of their fatigue lives.

机译：在大气中的Al合金的高循环疲劳断裂表面上形成光学暗区（ODA）是非常常见的并且在工程领域是非常常见的。在此，我们发现氧气诱导的内摩擦使纳米颗粒形式的严重Cu元素偏析在大气中疲劳裂缝表面的形式，这在Al-Cu-Mg合金中形成了ODA。通过增加应力比或施加凡士林涂料疲劳试验，可以绝对地消除ODA，其疲劳生活的显着延伸。

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来源
《Journal of Materials Research and Technology》 |2021年第6期|共8页
作者
Xinxiang Yu; Zhiguo Zhao; Dandan Shi; Xianli Shi; Yanli Jie; Wei Feng; Han Dai;
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中图分类工程材料学;
关键词
Al–Cu–Mg alloysHigh cycle fatigueOptical dark area (ODA)Microstructure;

机译：Al-Cu-Mg合金大学疲劳光学暗区（ODA）微观结构;

Formation of optical dark area (ODA) on high-cycle fatigue fracture surface of Al–Cu–Mg alloy at atmosphere induced by inner friction

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