Abstract:In order to study the effects of precipitation AlN on fish-scaling of cold-rolled enamel steel DC01,using the different coiling temperature 580,610 and 640 ℃,to control the precipitation of AlN after annealing and the simulation enamel test have been done to analyses the effects for the different coiling samples after annealing. The result shows that when the coiling temperature is 580 ℃, the precipitation is Fe3C particles mainly after annealing and the size of precipitation is about 500 nm. There are a large dispersion of precipitation of AlN in the sheet when the coiling temperature increased to 640 ℃,the size of precipitation is about 50 nm. The precipitation of AlN will improve the hydrogen storage performance of steel and avoid fish-scale defects.
收稿日期: 2017-06-13
出版日期: 2018-02-05
引用本文:
李 黎,肖宗益,刘 宇,周焕能,贾冬梅,. AlN析出对DC01搪瓷用钢鳞爆性能的影响[J]. , 2018, 53(1): 83-87.
LI Li,,XIAO Zong-yi,,LIU Yu,,ZHOU Huan-neng,,JIA Dong-mei,. Effects of precipitation AlN on fish-scaling of cold-rolled enamel steel DC01. Iron and Steel, 2018, 53(1): 83-87.
Lee H G, Lee J Y.Hydrogen Trapping by TiC Particles in Iron [J].Acta Metallurgical, 1984, 32(1):131-136.
[1]
Lee H G, Lee J Y.Hydrogen Trapping by TiC Particles in Iron [J].Acta Metallurgical, 1984, 32(1):131-136.
[2]
Okuyamas T, Nishimoto A, Kurokawa T. New Type Cold Rolled Steel for Enameling Produced by the Continuous Casting Method [J].The Vitreous Enameller, 1990, 41(3):49-60.
[2]
Okuyamas T, Nishimoto A, Kurokawa T. New Type Cold Rolled Steel for Enameling Produced by the Continuous Casting Method [J].The Vitreous Enameller, 1990, 41(3):49-60.
[3]
孙全社.冷轧搪瓷钢板的抗鳞爆性能的研究 [J].钢铁,2000,35(4):44-46.
[3]
孙全社.冷轧搪瓷钢板的抗鳞爆性能的研究 [J].钢铁,2000,35(4):44-46.
[4]
王义栋.提高低碳铝镇静钢力学性能的研究 [J].鞍钢技术,2003,(3):19-21
[4]
王义栋.提高低碳铝镇静钢力学性能的研究 [J].鞍钢技术,2003,(3):19-21
[5]
Massardier V, Guetaz V, Merlin J. Kinetic and microstructural study of aluminum nitride precipitation in a low carbon aluminum-killed steel [J]. Materials Science and Engineering: A, 2003, 355(1):299
[5]
Massardier V, Guetaz V, Merlin J. Kinetic and microstructural study of aluminum nitride precipitation in a low carbon aluminum-killed steel [J]. Materials Science and Engineering: A, 2003, 355(1):299