As the superheat temperature being enhanced, the size of carbides eutectic cells increases and tensile properties decline at room temperature.
随着过热度的增加,碳化物共晶团的尺寸增大,导致室温拉伸性能降低。
The experience was conducted using cooling slope and low superheat processes, effects of pouring temperature and the degree of slope on the billet's structure were researched.
采用激冷斜槽法和低过热法进行浇注料坯的试验,在试验中研究了不同浇注温度和冷却板倾斜角度对所浇注料坯的微观组织的影响。
For the security and economic of power plant, research the new control method which can overcome the disadvantages of traditional superheat steam temperature control system has important meaning.
研究能克服传统过热汽温控制系统的缺点的新型控制方法,对于电站运行的安全性和经济性有十分重要的意义。
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