摘要
Based on the effects of several casting parameters on slag entrapment in the mould ( water modeling), the numerical modeling was researched. The results show that the flow field with a submerged nozzle section dimension of 65 mm ×80 mm is better than that with a submerged nozzle section dimension of 40 mm × 40 mm and is favorable for avoiding slag entrapment. In this paper, low surface velocity, small level fluctuation and proper impact depth can be achieved with a nozzle of an outlet angle of 25° and an immersion depth of 150 mm, or with a prototype nozzle of an outlet angle of 15° angle and an immersion depth of 150 mm.
Based on the effects of several casting parameters on slag entrapment in the mould ( water modeling), the numerical modeling was researched. The results show that the flow field with a submerged nozzle section dimension of 65 mm ×80 mm is better than that with a submerged nozzle section dimension of 40 mm × 40 mm and is favorable for avoiding slag entrapment. In this paper, low surface velocity, small level fluctuation and proper impact depth can be achieved with a nozzle of an outlet angle of 25° and an immersion depth of 150 mm, or with a prototype nozzle of an outlet angle of 15° angle and an immersion depth of 150 mm.
