VN微合金化生产HRB500热轧带肋钢筋的试验研究
摘要
HRB500热轧带肋钢筋强度高,韧性好,具有良好的抗震性能。达到相同强度的钢筋用量分别比HRB335、HRB400节省28%、14%,因此,将节约大量矿石、焦炭、水力、电力等资源,并减少环境污染。国外已淘汰335Mpa级以下的钢筋,广泛使用的是400Mpa级钢筋,而我国建筑用钢仍以HRB335钢筋为主。VN微合金化可以使钢筋性能达到GB1499-1998对HRB500MPaⅣ级钢筋的质量要求。研究并优化HRB500钢筋的生产工艺,对国民经济的发展具有重大意义。
在小转炉和全连轧的工艺条件下,通过化学成分与工艺的配合,成功的开发了HRB500热轧带肋钢筋,吨钢综合成本可降616元。
本文对钒元素、氮元素在钢中的作用及存在形式作了分析;对VN合金的强化机理进行了研究;探讨了化学成分、金相组织、冶炼工艺、轧钢工艺、对HRB500热轧带肋钢筋的影响;通过回归分析,得到了主要化学成分对HRB500钢筋抗拉强度与屈服强度的回归方程;并结合现场生产条件,提出了合适的工艺路线。
试验结果表明:VN合金吨钢加入量为1.1Kg时,钢中V、N的平均含量达到0.08%、0.0096%,钢筋的平均屈服强度和抗拉强度分别达到546Mpa,701Mpa,平均延伸率为20%,强屈比1.28,冷弯、反弯及焊接性能完全满足国标要求。用VN合金微合金化后钢筋屈服强度增量在150Mpa以上,钢中增氮后充分发挥了钒的沉淀强化作用。VN合金是生产HRB500热轧带肋钢筋最为有效的、低成本的微合金化方式。
HRB500 hot-rolled ribbed steel bar has the characters of high strength, good toughness and good shock resistance. To achieve the same strength, the dosage of steel bars will save a lot (28% to HRB335, 14% to HRB400). HRB500 steel bar is a kind of high efficiency material, a large number of ore, coke, water, and electricity will be retrenched if HRB335 steel bars is replaced. Also, environment will be benefited from using HRB500. Nowadays, the steel bars of 400Mpa were widely used instead of 335Mpa overseas. Well, the opposite situation to china, where HRB335 were mainly used in the construction of architecture. VN micro alloyed steel can satisfy the standard of GB1499-1998 on the mechanical property of HRB500. To research and develop the production process of HRB500 is of great significance to the national economy.
In the process of small converter and tandem rolling, the HRB500 were successfully developed with VN alloy.The cost of the steel bars reduced 616RMB per ton.
The effect and existence shape of vanadium& nitrogen were analyzed in this paper, the influence of chemical composition, micro-structure, the way of smelting and rolling to HRB500 were discussed. Then, the regression equation of main chemical composition (containingC, Mn, V) to the mechanical property was figured out by regression analysis. In the end, the production processes of HRB500 were given.
The experimental results show that: the average content of vanadium& nitrogen is 0.08%, 0.0096% by adding VN alloys 1.1 Kg per ton. The average yield strength and tensile strength reaches 546Mpa and 701Mpa. The specific elongation is 20%, σ_b/σ_s equals 1.28. The performance of cold bending and reverse bending are up to grade. All the figures above were higher than the national standard. The yield strength increases 200Mpa by VN alloy. The effect of precipitation hardening of vanadium was engendered by nitrogen. It is proved that VN alloy is the efficient way of micro alloying.
在小转炉和全连轧的工艺条件下,通过化学成分与工艺的配合,成功的开发了HRB500热轧带肋钢筋,吨钢综合成本可降616元。
本文对钒元素、氮元素在钢中的作用及存在形式作了分析;对VN合金的强化机理进行了研究;探讨了化学成分、金相组织、冶炼工艺、轧钢工艺、对HRB500热轧带肋钢筋的影响;通过回归分析,得到了主要化学成分对HRB500钢筋抗拉强度与屈服强度的回归方程;并结合现场生产条件,提出了合适的工艺路线。
试验结果表明:VN合金吨钢加入量为1.1Kg时,钢中V、N的平均含量达到0.08%、0.0096%,钢筋的平均屈服强度和抗拉强度分别达到546Mpa,701Mpa,平均延伸率为20%,强屈比1.28,冷弯、反弯及焊接性能完全满足国标要求。用VN合金微合金化后钢筋屈服强度增量在150Mpa以上,钢中增氮后充分发挥了钒的沉淀强化作用。VN合金是生产HRB500热轧带肋钢筋最为有效的、低成本的微合金化方式。
HRB500 hot-rolled ribbed steel bar has the characters of high strength, good toughness and good shock resistance. To achieve the same strength, the dosage of steel bars will save a lot (28% to HRB335, 14% to HRB400). HRB500 steel bar is a kind of high efficiency material, a large number of ore, coke, water, and electricity will be retrenched if HRB335 steel bars is replaced. Also, environment will be benefited from using HRB500. Nowadays, the steel bars of 400Mpa were widely used instead of 335Mpa overseas. Well, the opposite situation to china, where HRB335 were mainly used in the construction of architecture. VN micro alloyed steel can satisfy the standard of GB1499-1998 on the mechanical property of HRB500. To research and develop the production process of HRB500 is of great significance to the national economy.
In the process of small converter and tandem rolling, the HRB500 were successfully developed with VN alloy.The cost of the steel bars reduced 616RMB per ton.
The effect and existence shape of vanadium& nitrogen were analyzed in this paper, the influence of chemical composition, micro-structure, the way of smelting and rolling to HRB500 were discussed. Then, the regression equation of main chemical composition (containingC, Mn, V) to the mechanical property was figured out by regression analysis. In the end, the production processes of HRB500 were given.
The experimental results show that: the average content of vanadium& nitrogen is 0.08%, 0.0096% by adding VN alloys 1.1 Kg per ton. The average yield strength and tensile strength reaches 546Mpa and 701Mpa. The specific elongation is 20%, σ_b/σ_s equals 1.28. The performance of cold bending and reverse bending are up to grade. All the figures above were higher than the national standard. The yield strength increases 200Mpa by VN alloy. The effect of precipitation hardening of vanadium was engendered by nitrogen. It is proved that VN alloy is the efficient way of micro alloying.
引文
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[44] 张永权,杨才福.Nitrovan12对20MnSiV钢力学性能的影响[C].钒氮微合金化文集.北京:钢铁研究总院结构材料研究所出版社,1998,174
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[2] 雍岐龙,马鸣图,吴宝榕.微合金钢物理和力学冶金[M].北京:机械工业出版社,1989
[3] M.Korchynsky.Mieroalloying and RCR of the long produets[C].钒氮微合金钢文集.钢铁研究总院.1998:1~11
[4] 杨雄.VN微合金化HRB400钢筋研制[D].北京科技大学硕士论文,2001
[5] 王祖滨,东涛等.低合金高强度钢[M].北京:原子能出版社,1996
[6] 余永宁.金属学原理[M].北京:冶金工业出版社,2000
[7] 何肇基.金属的力学性质[M].北京:冶金工业出版社,1989
[8] 王占学.控制轧制与控制冷却[M].北京:冶金工业出版社,1999
[9] 戴起勋.金属材料学[M].北京:化学工业出版社,2005
[10] 李云凯.金属材料学[M].北京:北京理工大学出版社,2005
[11] 东涛等.神奇的Nb-铌在钢铁工业中的应用[M].北京:中信美国钢铁公司,1999
[12] Medina S F, Lopez V.Static Recrystallization in Austinite and Its Influence on Microstrueural Changes in C-Mn Steel and Vanadium Microalloyed Steel at the Hot Strip Mill[J].ISIJ.International, 1993 (32): 605
[13] 傅俊岩,孟繁茂.应用钒氮合金优化钒钢生产开拓新产品[M].北京:中信美国钢铁公司,1999,3-4
[14] 傅俊岩.高氮钒微合金化钢的物理冶金及其应用[M].北京:中信美国钢铁公司,1999
[15] 王有铭等.钢材的控制轧制与控制冷却[M].北京:冶金工业出版社,1995
[16] 中华人民共和国国家标准.GB1499—1998钢筋混凝土用热轧带累钢筋,国家质量技术监督局,1998
[17] 孟宪珩,白宗奇.承钢HRB500钢筋的研制及市场开发[J].冶金标准化与质量,2005,43(3):31~34
[18] 王黎晖.2672工厂炼钢厂20MnSiV钢试生产的研究[D].北京科技大学硕士论文,2000
[19] 王丽鹃,杨茂麟,杨碧能.HRB500Ⅳ级热轧带肋钢筋开发[J].冶金标准化与质量,2006,44(2):26~28
[20] 俞德钢,谈育煦.钢的组织强度学[M].上海:上海科学技术出版社,1983
[21] Cai A G. Microstructure-strength relationships in Nb-Ⅴ microalloyed medium carbon steel [J]. Journal of Iron and Steel Research, 1996, 8(2): 35-39
[22] Rainforth W M, Black M P, Higginson R L, et al. Precipitation of NbC in a model austenitic steel [J]. Acta Mater, 2002(50): 735
[23] 王祖滨.低合金钢和微合金钢的发展[J].中国冶金,1999(3):19~23
[24] 王祖滨.低合金钢和微合金钢的发展(续)[J].中国冶金,1999(4):15~19
[25] 杨春楣.控轧控冷时Nb-Ⅴ微合金钢中碳氮化物的析出行为[J].钢铁钒钛,1999,20(3)27~31
[26] 杨作宏,陈伯春.谈微合金元素Nb、V、Ti在钢中的作用[J].甘肃冶金,2000(4):20~22
[27] H.L.ANDRADE. M.G. AKBEN. J. J. JONAS. Efect of Molybdenum, Niobium, and Vanadium on Static Recovery and Recrystallization and on Solution Strengthening in Microalloyed Steels[J].Metallurgical TransactionsA,14 A:1983~1967
[28] 白玉光.微合金元素铌对钢动态再结晶的影响[J].钢铁,1991(11):52~55
[29] 解万里,钒对低合金钢的强化机理分析[J].河北冶金,2006(3):41~44
[30] K.Narita.Physieal chemistry of the group IVVa(Ti, Zr), Va(V, Nb, Ta) and rare earth elements in steel [J].Trans.ISIJ, 1975( 15): 145~152
[31] 东涛,付俊岩.铌钒微合金化400MPaⅢ级钢筋的生产技术[J].中国冶金,2004(5):1~5
[32] H Adrian.Effect of titanium additions on auatenite grain growth kinetics of medium carbon V-Nb steels containing 0.008-0.018%N[J].Materials Science and Technology.1991 (1): 176~182
[33] Minoru WADA.A Method of Observing Fine Precipitates in Alloys with a Field-ion Microscope[J].ISIJ International, 1990, 30(5): 341~346
[34] 谭若斌.国内外钒资源的开发利用[J].钒钛,1994(5-6):4-11
[35] 张永权,杨才福,柳书平.经济型建筑用Ⅲ级钢筋的研究[J].钢铁,2000,35(1):43~46
[36] 孔邦明,季怀忠,杨才福等.V—N微合金化钢中钒的析出行为[J].钢铁,2001,36(2):44~47
[37] 柳书平,杨才福,张永权.氮对钒钢性能及析出相的影响[J].金属热处理,2001,26(10):7~9
[38] 龚维幂,杨才福,张永权.钒氮钢中的晶粒细化研究[J].钢铁研究学报,2006,18(10):49~53
[39] 杨才福,张永权,柳书平.钒氮微合金化钢筋的强化机制[J].钢铁,2001,36(5):55~58
[40] 季怀忠,杨才福,张永权.氮在非调质钢中的作用[J].钢铁,2000,35(7): 60~72
[41] 张伟,阎志华,鞠艳美.VN合金化对HRB400钢筋力学性能的影响[J].山东冶金,2004,26(5):53~55
[42] 刘巍.V-N微合金化HRB400钢筋细晶机制的研究[J].材料与冶金学报,2004,3(1):58~61
[43] 汪荣鑫.数理统计[M].西安:西安交通大学出版社,1986
[44] 张永权,杨才福.Nitrovan12对20MnSiV钢力学性能的影响[C].钒氮微合金化文集.北京:钢铁研究总院结构材料研究所出版社,1998,174
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