[1] 柴 锋, 杨才福, 苏 航, 等. 钒氮微合金化高强度球扁钢的强韧化机制[J]. 钢铁研究学报, 2012, 24(2): 39-43. Chai Feng, Yang Caifu, Su Hang, et al. Strengthening and toughening mechanism of high strength V-N micro-alloyed bulb-flat steel[J]. Journal of Iron and Steel Research, 2012, 24(2): 39-43. [2] 赵勇桃, 姜亚君, 李波波, 等. 稀土对低碳微合金高强钢冷却过程组织演变的影响[J]. 钢铁研究学报, 2022, 34(2): 169-174. Zhao Yongtao, Jiang Yajun, Li Bobo, et al. Effect of rare earth elements on microstructure evolution of low carbon microalloyed high strength during cooling[J]. Journal of Iron and Steel Research, 2022, 34(2): 169-174. [3] Miettinen J, Koskenniska S, Somani M, et al. Optimization of the CCT curves for steels containing Al, Cu and B[J]. Metallurgical and Materials Transactions B, 2021, 52(3): 1640-1663. [4] Mandal G, Dey I, Mukherjee S, et al. Phase transformation and mechanical properties of ultrahigh strength steels under continuous cooling conditions[J]. Journal of Materials Research and Technology, 2022, 19: 628-642. [5] 万荣春, 孙 锋, 付立铭, 等. Nb对Q345低Mo耐火钢CCT曲线的影响[J]. 金属热处理, 2021, 46(2): 25-29. Wan Rongchun, Sun Feng, Fu Liming, et al. Effect of Nb on CCT curves of Q345 low-Mo fire-resistant steel[J]. Heat Treatment of Metals, 2021, 46(2): 25-29. [6] Far A R H, Anijdan S H M, Abbasi S M. The effect of increasing Cu and Ni on a significant enhancement of mechanical properties of high strength low alloy, low carbon steels of HSLA-100 type[J]. Materials Science and Engineering A, 2019, 746: 384-393. [7] José Britti Bacalhau, Conrado Ramos Moreira Afonso. Effect of Ni addition on bainite microstructure of low-carbon special bar quality steels and its influence on CCT diagrams[J]. Journal of Materials Research and Technology, 2021, 15: 1266-1283. [8] Hu Q, Liu Y, Zhang T, et al. Modeling the corrosion behavior of Ni-Cr-Mo-V high strength steel in the simulated deep sea environments using design experiment and artificial neural network[J]. Journal of Materials Science and Technology, 2019, 35: 168-175. [9] Liu X, Lu C, Luo H, et al. The effect of solution and precipitation of Nb and V on the continuous cooling transformation of undercooling austenite in high-strength 20MnSi steel[J]. Materials Today Communications, 2024, 40: 110046. [10] 陈密达, 梁丰瑞, 沈俊杰, 等. 大规格V-N微合金化球扁钢连续冷却过程中的组织性能分析[J]. 冶金分析, 2023, 43(4): 48-57. Chen Mida, Liang Fengrui, Shen Junjie, et al. Analysis of microstructure and properties of large size V-N microalloying bulb flat steel during continuous cooling process[J]. Metallurgical Analysis, 2023, 43(4): 48-57. [11] 陈密达, 张云祥, 梁丰瑞, 等. 碳和氮含量对大规格球扁钢组织和性能的影响[J]. 钢铁, 2023, 58(4): 126-137. Chen Mida, Zhang Yunxiang, Liang Fengrui, et al. Effect of C and N contents on mechanical properties of tempered large bulb flat steel[J]. Iron and Steel, 2023, 58(4): 126-137. [12] 周 丹, 梁丰瑞, 王天琪, 等. 高强度球扁钢感应加热有限元模拟与工艺优化[J]. 中国冶金, 2019, 29(8): 45-51. Zhou Dan, Liang Fengrui, Wang Tianqi, et al. Finite element simulation and process optimizing of induction heating for high strength bulb flat steel[J]. China Metallurgy, 2019, 29(8): 45-51. [13] 薛东妹, 陈雪慧, 杨才福, 等. 440 MPa级高强度球扁钢的热处理工艺[J]. 连铸, 2016, 41(6): 70-74. Xue Dongmei, Chen Xuehui, Yang Caifu, et al. Heat treatment process of bulb flat steels with yield strength of 440 MPa[J]. Continuous Casting, 2016, 41(6): 70-74. [14] 王春芳, 路 岩, 赵晓丽. 热膨胀法在钢铁材料固态相变研究中的应用[J]. 钢铁研究学报, 2015, 27(11): 1-7. Wang Chunfang, Lu Yan, Zhao Xiaoli. Application of dilatometry to phase transformation analysis of solid state in iron and steel[J]. Journal of Iron and Steel Research, 2015, 27(11): 1-7. [15] Ramazani A, Mukherjee K, Prahl U, et al. Modelling the effect of microstructural banding on the flow curve behaviour of dual-phase (DP) steels[J]. Computational Materials Science, 2012, 52(1): 46-54. [16] 张晓川, 任春华, 王 琰, 等. 带状组织对高强度低合金钢力学性能影响的实验研究进展[J]. 实验力学, 2023, 38(3): 317-326. Zhang Xiaochuan, Ren Chunhua, Wang Yan, et al. Experimental research progress on the effect of banded structure on mechanical properties of high-strength low-alloy steel[J]. Journal of Experimental Mechanics, 2023, 38(3): 317-326. [17] 衣海龙, 韦 弦, 王 宏, 等. C-Mn-Ni高强钢的连续冷却相变研究[J]. 轧钢, 2019, 36(6): 11-16. Yi Hailong, Wei Xian, Wang Hong, et al. Study on phase transformation of C-Mn-Ni high strength steel during continuous cooling[J]. Steel Rolling, 2019, 36(6): 11-16. [18] Jiang Z, Wang P, Li D, et al. The evolutions of microstructure and mechanical properties of 2.25Cr-1Mo-0.25V steel with different initial microstructures during tempering[J]. Materials Science and Engineering, 2017, 699: 165-175. [19] Li Q, Yu H, Wang K, et al. Developing 1000 MPa grade LCLA steels through continuous cooling: Effects of Cr and cooling rate on bainitic and martensitic transformations[J]. Materials Characterization, 2022, 187: 111859. [20] Jian S, Wei S, Lu S. Influence of vanadium content on the precipitation evolution and mechanical properties of high-strength Fe-Cr-Ni-Mo weld metal[J]. Materials Science and Engineering A, 2020, 772: 138739. [21] Zhao L, Wang D, Pang Q, et al. Effect of quenching-super intercritical quenching-tempering process on the evolution of microstructure and the yield ratio of Ni-Cr-Mo steel[J]. Journal of Materials Research and Technology, 2024, 32: 915-925. [22] Guo Kaihao, Pan Tao, Meng Li, et al. Morphology and crystallography of the coalescent structure in Ni-Cr-Mo industrial heavy steel plate[J]. Materials Letters, 2023, 331: 133446. [23] Chen D, Wang Z, Zhang Y, et al. Effects of thermo-mechanical treatments on the microstructure and mechanical properties of a 460 MPa grade low carbon bainitic ferrite[J]. Materials Science and Engineering A, 2022, 842: 143087. [24] 蒋 辉, 赵爱民, 裴 伟, 等. 低合金耐磨钢的CCT曲线与马氏体相变原位观察[J]. 材料热处理学报, 2022, 43(11): 143-150. Jiang Hui, Zhao Aimin, Pei Wei, et al. Continuous cooling transformation curve of low alloy wear-resistant steel and in-situ observation of its martensitic transformation[J]. Transactions of Materials and Heat Treatment, 2022, 43(11): 143-150. [25] Abbaszadeh K, Saghafian H, Kheirandish S. Effect of bainite morphology on mechanical properties of the mixed bainite-martensite microstructure in D6AC steel[J]. Journal of Materials Science and Technology, 2012, 28(4): 336-342. [26] 沈新康, 陈 成, 邵永波, 等. EH690高强钢的CCT曲线测定与相变动力学分析[J]. 材料热处理学报, 2024, 45(11): 132-145. Shen Xinkang, Chen Cheng, Shao Yongbo, et al. Determination of continuous cooling transformation curves and phase transformation kinetic analysis of EH690 high-strength steel[J]. Transactions of Materials and Heat Treatment, 2024, 45(11): 132-145. |