2Takamura J, Mizoguhci S. Roles of oxides in steels performance // Proceedings of the 6th International Iron and Steel Congress ISIJ, Nagoya, 1990:591.
3Mizoguhci S, Takamura J. Control of oxides as inoculants// Proceedings of the 6th International Iron and Steel Congress ISIJ , Nagoya, 1990:598.
4Madariaga I, Gutierrez I. Role of the particle-matrix interface on the nucleation of acicular ferrite in a medium carbon microalloyed steel. Acta Mater, 1999, 47(3) : 951.
5Kikuchi N, Nabeshima S, Kishimoto Y, et al. Effect of Ti de-oxidation on solidification and post-solidification microstructure in low carbon high manganese steel. ISIJ lnt, 2007, 47(9) : 1255.
6Shim J H, Cho Y W, Chung S H, et al. Nucleation of intragranular ferrite at Ti2 O3 particle in low carbon steel. Acta Mater, 1999, 47(9) : 2751.
7Lee J L, Pan Y T. The formation of intragranular aeicular ferrite in simulated heat-affected zone. ISIJ Int, 1995, 35 (8) : 1027.
8Homma H, Ohkita S, Matsuda S, et al. Improvement of HAZ toughness in HSLA steel by introducing finely dispersed Ti-oxide. Weld J, 1987, 66(10) :301.
9A1 Hajeri K F, Garcia C I, Hua M, et al. Particle-stimulated nucleation of ferrite in heavy steel sections. ISIJ lnt, 2006, 46(8) : 1233.
10Bhadeshia H K D H, Sevensson L E, Gretoft B. A model for the development of microstructure in low-alloy steel (Fe-Mn-Si-C) weld deposits. Acta Metall, 1985, 33(7) :1271.
