中国有色金属学报(英文版)
中國有色金屬學報(英文版)
중국유색금속학보(영문판)
TRANSACTIONS OF NONFERROUS METALS SOCIETY OF CHINA
2014年
11期
3413-3420
,共8页
庞松%吴国华%刘文才%张亮%张扬%Hans CONRAD%丁文江
龐鬆%吳國華%劉文纔%張亮%張颺%Hans CONRAD%丁文江
방송%오국화%류문재%장량%장양%Hans CONRAD%정문강
Mg-10Gd-3Y-0.4Zr%砂型铸造%冷却速率%热分析%凝固行为
Mg-10Gd-3Y-0.4Zr%砂型鑄造%冷卻速率%熱分析%凝固行為
Mg-10Gd-3Y-0.4Zr%사형주조%냉각속솔%열분석%응고행위
Mg-10Gd-3Y-0.4Zr%sand-cast%cooling rate%thermal analysis%solidification behavior
采用计算机辅助冷却曲线分析技术研究砂型铸造过程中冷却速率(1.4~3.5°C/s)对Mg?10Gd?3Y?0.4Zr合金凝固行为的影响。结果表明:随着冷却速率的提高,起始形核温度(Tα,N)由634.8°C升至636.3°C,再辉前最低温度(Tα,Min)由631.9°C降至630.7°C,形核过冷度(ΔTN)由2.9°C升至5.6°C,共晶反应起始温度(Teut,N)上升,固相线温度(TS)由546.0°C降至541.4°C,凝固温度区间(ΔTS)增加6.1°C。形核速率(N&)的增加引起晶核数量的增加,从而降低α-Mg的平均晶粒粒径。相对于形核时间(ΔtN),形核过冷度(ΔTN)对α-Mg平均晶粒粒径的影响更大。温度增加值(Teut,N?Teut,G)与缩短的反应时间改变共晶反应进程,并且影响第二相的含量以及形貌。
採用計算機輔助冷卻麯線分析技術研究砂型鑄造過程中冷卻速率(1.4~3.5°C/s)對Mg?10Gd?3Y?0.4Zr閤金凝固行為的影響。結果錶明:隨著冷卻速率的提高,起始形覈溫度(Tα,N)由634.8°C升至636.3°C,再輝前最低溫度(Tα,Min)由631.9°C降至630.7°C,形覈過冷度(ΔTN)由2.9°C升至5.6°C,共晶反應起始溫度(Teut,N)上升,固相線溫度(TS)由546.0°C降至541.4°C,凝固溫度區間(ΔTS)增加6.1°C。形覈速率(N&)的增加引起晶覈數量的增加,從而降低α-Mg的平均晶粒粒徑。相對于形覈時間(ΔtN),形覈過冷度(ΔTN)對α-Mg平均晶粒粒徑的影響更大。溫度增加值(Teut,N?Teut,G)與縮短的反應時間改變共晶反應進程,併且影響第二相的含量以及形貌。
채용계산궤보조냉각곡선분석기술연구사형주조과정중냉각속솔(1.4~3.5°C/s)대Mg?10Gd?3Y?0.4Zr합금응고행위적영향。결과표명:수착냉각속솔적제고,기시형핵온도(Tα,N)유634.8°C승지636.3°C,재휘전최저온도(Tα,Min)유631.9°C강지630.7°C,형핵과랭도(ΔTN)유2.9°C승지5.6°C,공정반응기시온도(Teut,N)상승,고상선온도(TS)유546.0°C강지541.4°C,응고온도구간(ΔTS)증가6.1°C。형핵속솔(N&)적증가인기정핵수량적증가,종이강저α-Mg적평균정립립경。상대우형핵시간(ΔtN),형핵과랭도(ΔTN)대α-Mg평균정립립경적영향경대。온도증가치(Teut,N?Teut,G)여축단적반응시간개변공정반응진정,병차영향제이상적함량이급형모。
The effect of the cooling rate ranging from 1.4 °C/s to 3.5 °C/s on the solidification behavior of the sand-cast Mg?10Gd?3Y?0.4Zr alloy was studied by computer aided cooling curve analysis (CA-CCA). With the increase in cooling rate, the nucleation temperature (Tα,N) increases from 634.8 °C to 636.3 °C, the minimum temperature (Tα,Min) decreases from 631.9 °C to 630.7 °C, the nucleation undercooling (ΔTN) increases from 2.9 °C to 5.6 °C, the beginning temperature of the eutectic reaction (Teut,N) increases, the time of the eutectic reaction shortens, solidus temperature decreases from 546.0 °C to 541.4 °C, and solidification temperature range (ΔTS) increases by 6.1 °C. The increased nucleation rate (N&) is supposed to be the main reason for the increased?TN. Increased value (Teut,N?Teut,G) and shortened time of the eutectic reaction cause the change in the volume fraction and morphology of the second phase.
