冶金氢作为轧钢损伤的指示物和原因:断裂的氢诊断

IF 1.2 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY

Frattura ed Integrita Strutturale Pub Date : 2022-12-21 DOI:10.3221/igf-esis.63.23

V. Polyanskiy, V. Loginov, Y. Yakovlev, A. Polyanskiy, Vecheclav Olekov, Gregory Rostovykh

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引用次数: 0

摘要

对10KhSND钢60Sh3工字钢轧制试样进行了疲劳试验和冶金氢的体积分布测量。疲劳试验表明，与同类板材相比，其疲劳极限降低了20%。在试样的断口处，工字钢法兰的界面区域，即所谓的难变形区，存在着一团状的缺陷。冶金氢的浓度分布不均匀，在0.17 ppm ~ 1.8 ppm之间。在难变形区观察到高浓度的氢，这表明在断口观察到金属缺陷的氢性质。机械测试和氢诊断的结果是轧制产品的制造缺陷，无法纠正。使用冶金氢(没有充氢样品)进行氢诊断所需的时间比机械测试少几十倍，并且给出了足够的结果。

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The Metallurgical hydrogen as an indicator and cause of damage to rolled steel: Hydrogen diagnostics of fracture

Fatigue tests and measurements of the volumetric distribution of metallurgical hydrogen in specimens cut from rolled I-beam 60Sh3 made of steel 10KhSND were carried out. Fatigue tests show a 20% reduction in fatigue limits compared to similar sheet material. On the fractures of the samples, there are flock-like defects in the areas of interface of the flanges of the I-beam, or the so-called zones of difficult deformation. The concentration of metallurgical hydrogen is unevenly distributed and varies from 0.17 ppm to 1.8 ppm. Large concentrations of hydrogen are observed in the zones of difficult deformation, which indicates the hydrogen nature of the metal defects observed at the fracture. The result of mechanical tests and hydrogen diagnostics is a manufacturing defect of rolled products that cannot be corrected. Hydrogen diagnostics using metallurgical hydrogen (without hydrogen charging samples) takes tens of times less time than mechanical tests, and gives an adequate result.

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