Thermal desorption analyses (TDA) were conducted in high strength martensitic steels containing carbon from 0.33 to 1.0 mass pct, which were charged with hydrogen at 1223 K (950 °C) under hydrogen of one atmospheric pressure and quenched to room temperature. In 0.33C steel, which had the highest M s temperature, only one desorption peak was observed around 373 K (100 °C), whereas two peaks, one at a similar temperature and the other around and above 573 K (300 °C), were observed in the other steels, the height of the second peak increasing with carbon content. In 0.82C steel, both peaks disappeared during exposure at room temperature in 1 week, whereas the peak heights decreased gradually over 2 weeks in specimens electrolytically charged with hydrogen and aged for varying times at room temperature. From computer simulation, by means of the McNabb–Foster theory coupled with theories of carbon segregation, these peaks are likely to be due to trapping of hydrogen in the strain fields and cores of dislocations, and presumably to a lesser extent in prior austenite grain boundaries. The results also indicate that carbon atoms prevent and even expel hydrogen from trapping sites during quenching and aging in these steels.
展开▼
机译:在碳含量为0.33至1.0质量%的高强度马氏体钢中进行热脱附分析(TDA),这些钢在一个大气压的氢气下于1223 K(950°C)充入氢气,并淬火至室温。在最高M s 温度的0.33C钢中,在373 K(100°C)附近仅观察到一个解吸峰,而两个峰(一个在相似的温度,另一个在周围及以上)被观察到在其他钢中观察到573 K(300°C),第二个峰的高度随着碳含量的增加而增加。在0.82C钢中,在室温下暴露1周后,两个峰均消失,而在电解充氢并在室温下老化不同时间的样品中,峰高在2周内逐渐降低。通过计算机模拟,借助McNabb-Foster理论和碳偏析理论,这些峰很可能是由于氢在应变场和位错核心中的俘获所致,大概在较小范围内存在于先前的奥氏体晶界中。结果还表明,在这些钢的淬火和时效处理过程中,碳原子可防止甚至驱除氢从捕集部位逸出。
展开▼
