连铸结晶器内含钛无氟保护渣固态渣膜再结晶研究

特殊钢 ›› 2012, Vol. 33 ›› Issue (6): 9-11.

连铸结晶器内含钛无氟保护渣固态渣膜再结晶研究

苗胜田¹，文光华²，唐萍²

1中冶京诚工程技术有限公司，北京100176；
2重庆大学材料科学与工程学院，重庆400044

收稿日期:2012-06-05 出版日期:2012-12-01 发布日期:2022-09-27
作者简介:苗胜田( 1982-),男，硕士，工程师,2006年重庆大学毕业，冶金工程研究。

A Study on Recrystallization of Fluoride Free Titanium Bearing Solidified Flux Film of Casting Powder in Mold

Miao Shengtian¹ , Wen Guanghua²， Tang Ping²

1 Zhongye Jingcheng Engineering and Technology Corp Ltd, Beijing 100176 ；
2 School of Materials Science and Engineering, Chongqing University, Chongqing 400044

Received:2012-06-05 Published:2012-12-01 Online:2022-09-27

摘要/Abstract

摘要： 将Kissinger方程引入到保护渣研究领域,研究了含钛无氟保护渣玻璃体升温结晶(升温速率5～30K/min)、液态降温结晶(降温速率5～30 K/min)的激活能。实验结果表明,保护渣玻璃体的结晶激活能E约为52.75 kJ/mol,保护渣液态降温结晶的激活能E约为61.15 kJ/mol,实验研究的保护渣玻璃体结晶峰温度915～940K,急速冷却形成的玻璃态渣膜在结晶器内存在再结晶,衡量保护渣结晶性能应综合考虑液态降温结晶行为和渣膜在结晶器内再结晶的行为。

关键词: 含钛无氟保护渣, 激活能, 玻璃体, 结晶

Abstract: With using Kissinger equation in research field of mold powder, the activation energy for the crystallization of glassy state fluoride free titanium bearing mold powder in heating process (heating rate 5 〜30 K/min) and that for the crystallization of liquid state mold flux in cooling process (cooling rate 5 〜30 K/min) have been studied. Experimental results show that the activation energy E for the crystallization of glassy state flux in heating process is about 52. 75 kJ/mol and the E for the crystallization of liquid state flux in cooling process is about 61. 15 kJ/mol. The peak temperature of crystallization of test glass flux is 915 〜940 K, the glassy state flux film formed in quick cooling process has recrystallization behavior, therefore it should consider both liquid state flux crystallization behavior in cooling process and recrystallization behavior in flux film in mold.

苗胜田, 文光华, 唐萍. 连铸结晶器内含钛无氟保护渣固态渣膜再结晶研究[J]. 特殊钢, 2012, 33(6): 9-11.

Miao Shengtian , Wen Guanghua, Tang Ping. A Study on Recrystallization of Fluoride Free Titanium Bearing Solidified Flux Film of Casting Powder in Mold[J]. Special Steel, 2012, 33(6): 9-11.

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