Influence of V–N Microalloying on the High-Temperature Mechanical Behavior and Net Crack Defect of High Strength Weathering Steel

Jiasheng Qing; Lei Wang; Kun Dou; Bao Wang; Qing Liu

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Influence of V–N Microalloying on the High-Temperature Mechanical Behavior and Net Crack Defect of High Strength Weathering Steel

机译：钒氮微合金化对高强度耐候钢高温力学行为和净裂纹缺陷的影响

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The influence of V–N microalloying on the high-temperature mechanical behavior of high strength weathering steel is discussed through thermomechanical simulation experiment. The difference of tensile strength caused by variation of [%V][%N] appears after proeutectoid phase change, and the higher level of [%V][%N] is, the stronger the tensile strength tends to be. The ductility trough apparently becomes deeper and wider with the increase of [%V][%N]. When the level of [%V][%N] reaches to 1.7 × 10~(?3), high strength weathering steel shows almost similar reduction of area to 0.03% Nb-containing steel in the temperature range of 800–900℃, however, the ductility trough at the low-temperature stage is wider than that of Nb-containing steel. Moreover, the net crack defect of bloom is optimized through the stable control of N content in low range under the precondition of high strength weathering steel with sufficient strength.

机译：通过热力学模拟实验，探讨了钒氮微合金化对高强度耐候钢高温力学性能的影响。在共析相变之后，由[％V] [％N]的变化引起的拉伸强度的差异出现，并且[％V] [％N]的含量越高，拉伸强度倾向于越强。延展性槽随着[％V] [％N]的增加而变得越来越深。当[％V] [％N]的水平达到1.7×10〜（？3）时，在800-900℃的温度范围内，高强度耐候钢的面积减少几乎与含0.03％Nb的钢相似，但是，低温阶段的延性槽比含铌钢的延性槽宽。此外，在高强度耐候钢和足够强度的前提下，通过在低范围内稳定控制氮含量，可以优化大方坯的净裂纹缺陷。

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《High temperature materials and processes》 |2016年第6期|共8页
作者
Jiasheng Qing; Lei Wang; Kun Dou; Bao Wang; Qing Liu;
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中图分类工程基础科学;
关键词
weathering steelV–N microalloyinghot ductilitybloomnet crack;

机译：耐候钢V–N微合金化热延性Bloomnet裂纹;

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1. Influence of V-N Microalloying on the High-Temperature Mechanical Behavior and Net Crack Defect of High Strength Weathering Steel [J] . Jiasheng Qing, Lei Wang, Kun Dou, High temperature materials and processes . 2016,第6期

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8. Comparison of Environmentally-Influenced Near-Threshold Fatigue-Crack-Growth Behavior in High- and Lower-Strength Steels at Conventional Frequencies [R] . Ritchie, R. O., Suresh, S., Liaw, P. K. 1982

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Influence of V–N Microalloying on the High-Temperature Mechanical Behavior and Net Crack Defect of High Strength Weathering Steel

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