Mechanical behavior and brittle–ductile transition of high-chromium martensitic steel
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- 作者:M. V. Odnobokova ; A. Yu. Kipelova…
- 刊名:The Physics of Metals and Metallography
- 出版年:2016
- 出版时间:April 2016
- 年:2016
- 卷:117
- 期:4
- 页码:390-398
- 全文大小:3,215 KB
- 刊物类别:Chemistry and Materials Science
- 刊物主题:Chemistry
Metallic Materials
Russian Library of Science - 出版者:MAIK Nauka/Interperiodica distributed exclusively by Springer Science+Business Media LLC.
- ISSN:1555-6190
- 卷排序:117
文摘
The article presents data on the static tensile tests and dynamic impact-toughness tests of a highchromium martensitic 10Kh9V1M1FBR steel (0.12 wt % C, 9.8 wt % Cr, 0.93 wt % W, 1.01 wt % Mo, 0.2 wt % V, 0.05 wt % Nb, 0.05 wt % N, 0.003 wt % B, 0.36 wt % Mn, 0.2 wt % Ni, 0.06 wt % Si, 0.01 wt % P, 0.008 wt % S, 0.02 wt % Cu, 0.1 wt % Co, 0.015 wt % Al, and the remainder is Fe) in the temperature range from 20 to–196°C. In the case of static loading, a reduction in the temperature leads to an increase in the strength characteristics; upon a drop in the temperature from 20 to–100°C, the plasticity also increases. This is connected with the fact that the ductile fracture remains the basic mechanism down to cryogenic temperatures. The brittle–ductile transition related to the transition from ductile intragranular fracture to quasibrittle one is observed at–45°C. The steel exhibits high impact toughness to the temperature of–60°C (KCV–60 = 95 J/cm2), at which the fraction of the ductile component in fracture is equal to 20%. At 80°C, the impact toughness decreases down to critical values (30 J/cm2), which correlates with the decrease in the fraction of the ductile component on the fracture surface down to 1%. The further decrease in the impact toughness down to 10 J/cm2 at–196°C is related to the transition from intragranular to intergranular brittle fracture.Keywordsmartensitic steelimpact toughnessmicrostructurebrittle–ductile fracturefractography