一重技术
一重技術
일중기술
CFHI TECHNOLOGY
2014年
6期
56-59
,共4页
钢锭模%初始温度%凝固过程%ProCAST
鋼錠模%初始溫度%凝固過程%ProCAST
강정모%초시온도%응고과정%ProCAST
ingot mold%initial temperature%solidification%ProCast
采用铸造模拟软件ProCAST,系统研究钢锭模初始温度对96 t钢锭凝固过程的影响,具体包括钢锭的完全凝固时间、缩孔缩松和夹杂上浮时间等。结果表明:随着钢锭模初始温度的提高,完全凝固时间逐渐增长,在所研究范围内对缩孔缩松和夹杂物可上浮时间影响不显著。
採用鑄造模擬軟件ProCAST,繫統研究鋼錠模初始溫度對96 t鋼錠凝固過程的影響,具體包括鋼錠的完全凝固時間、縮孔縮鬆和夾雜上浮時間等。結果錶明:隨著鋼錠模初始溫度的提高,完全凝固時間逐漸增長,在所研究範圍內對縮孔縮鬆和夾雜物可上浮時間影響不顯著。
채용주조모의연건ProCAST,계통연구강정모초시온도대96 t강정응고과정적영향,구체포괄강정적완전응고시간、축공축송화협잡상부시간등。결과표명:수착강정모초시온도적제고,완전응고시간축점증장,재소연구범위내대축공축송화협잡물가상부시간영향불현저。
In this paper, casting simulation ProCAST is used to study the effect of mold initial temperature on the solidification of a 96 t ingot. This includes the ingot complete solidification time, microporosity and macroporosity formation, inclusion floating-up time. The simulation results indicate that the ingot complete solidification time increases with the increasing of the initial mold temperature. The inclusion floating-up time and microporosity as well as macroporosity have no significant effect on the ingot solidification within the range of the studied mold initial temperature.
