通过连续冷却相转变行为研究,成功试制了20 mm厚屈服强度450 MPa级耐候钢板,并对钢板的显微组织、力学性能、耐腐蚀性能及焊接性能进行了分析。连续冷却相变行为和钢板试制结果表明:精轧温度约为850℃、累计压下率不小于0.6、轧后冷速为15~30℃/s、终冷温度不大于579℃可以得到以多边形铁素体(晶粒尺寸为3~10μm)和退化珠光体为主并含有少量马奥岛(M-A组元)的钢板,其屈服强度和抗拉强度分别为458和557 MPa,伸长率不小于28%,-60℃冲击功不小于287 J,其优异的低温冲击韧性与钢板有效晶粒尺寸较小以及大角度晶界所占比例较高有关。72 h亚硫酸氢钠和氯化钠溶液周期性浸润试验结果显示,试制钢板的耐蚀性能比Q345B分别提高了约49%和40%。对试制钢板进行线能量为30 kJ/cm的埋弧焊焊接试验,得到的焊接接头热影响区熔合线处-40℃冲击功为156 J。
20 mm thick yield strength 450 MPa weathering steel was successfully hot rolled based on continuous cooling transformation (CCT) behavior study, and its microstructure, mechanical properties, corrosion-resistance and weldability were analyzed. Both CCT and hot rolling test results suggest that a combination of finish rolling temperature of about 850℃, thickness reduction ratio≥0.6, cooling rate of between 15-30℃/s and cooling finish temperature≤579℃result-ed in a plate consisting of polygonal ferrite (3-10μm), degenerate pearlite and small amounts of M-A. The rolled plate ex-hibited a yield strength of 458 MPa, and tensile strength of 557 MPa, elongation≥28%and impact absorbed energy≥287 J at-60℃. The excellent low temperature toughness was derived from the small effective grain size of and high pro-portion of high-angle boundary. 72 h periodical dry-wet immersion corrosion test in NaHSO3 and NaCl solutions show that the corrosion resistance of the hot rolled plate was 49%and 40%higher than Q345B, respectively. Submerged arc welding with heat input of 30 kJ/cm was employed to the hot-rolled plate, and the heat affected zone shows an impact absorbed en-ergy≥156 J at-40℃.
参考文献
| [1] | 宋凤明,温东辉,李自刚,屈朝霞.铁道车辆用耐大气腐蚀钢的现状及研发方向[J].世界钢铁,2009(05):11-13,41. |
| [2] | 刘志勇,陈邦文,陈吉清,胡敏,宋育来.武钢铁路车辆及集装箱用耐候钢的现状及发展[J].钢铁研究,2009(06):55-58. |
| [3] | 郭慧英,张宇,何玉春,许红梅.低合金耐海水腐蚀钢的开发[J].钢铁,2013(09):71-76. |
| [4] | H. Kihira;M. Kimura .Advancements of Weathering Steel Technologies in Japan[J].Corrosion: The Journal of Science and Engineering,2011(9):095002:1-095002:13. |
| [5] | 高飞,钱天才,王瑞珍.钒微合金化低碳贝氏体钢的连续冷却相变特性[J].钢铁研究学报,2011(12):40-44. |
| [6] | 朱诚意,谢军,柯昌明,李光强,宋宇.钛微合金化高强度耐候钢成分设计及熔炼[J].武汉科技大学学报(自然科学版),2010(05):516-521. |
| [7] | Chen Y Y;Tzeng H J;Wei L I et al.Corrosion Resistance and Mechanical Properties of Low-Alloy Steels Under Atmospheric Conditions[J].Corrosion Science,2005,47(04):1001. |
| [8] | M. Murayama;Murayama;T. Nishimura;Nishimura;K. Tsuzaki;Tsuzaki .Nano-scale Chemical Analysis Of Rust On A 2% Si-bearing Low Alloy Steel Exposed In A Coastal Environment[J].Corrosion Science: The Journal on Environmental Degradation of Materials and its Control,2008(8):2159-2165. |
| [9] | 许红梅,张宇,王银柏,李小宝.一种低成本铝硅耐候钢的研制[J].钢铁,2013(08):70-74. |
| [10] | Nishimura T .Rust Formation and Corrosion Performance of Si-and Al-Bearing Ultrafine Grained Weathering Steel[J].Corrosion Science,2008,50(07):1306. |
| [11] | 刘清友,曲鹏,毛新平,王向东,汪兵,陈小平,贾书君,翁宇庆.P-RE复合超细组织耐候钢的理论与技术[J].中国材料进展,2010(09):46-53. |
| [12] | 孙静涛,曲朝霞,聂友明,徐玉君,陈增有,温东辉,杜兵.S450EW新型耐候钢焊接工艺与低温韧性研究[J].机械制造文摘-焊接分册,2012(02):30-32. |
| [13] | 聂友明,陈增有,苏广宇.S450EW高耐蚀性耐候钢的焊接工艺[J].大连交通大学学报,2012(03):45-47. |
| [14] | KAWABATA Fumimaru;MATSUI Kazuyuki;OBINATA Tadashi;KOMORI Tsutomu;TAKEMURA Masahiro;K.UBO Takahiro .Steel Plates for Bridge Use and Their Application Technologies[J].JFE technical report,2004(2):85-90. |
| [15] | Isamu K;Kazuyuki M;Fumimaru K.Minimum Maintenance Steel Plates and Their Application Technologies for Bridge-Life Cycle Cost Reduction Technologies With Environment Safeguards for Preserving Social Infrastructure Assets[J].JFE Technical Report,2005(05):37. |
| [16] | E. J. Pavlina;C. J. Van Tyne .Correlation of Yield Strength and Tensile Strength with Hardness for Steels[J].Journal of Materials Engineering and Performance,2008(6):888-893. |
| [17] | Armstrong R W.The Influence of Polycrystal Grain Size on Sev-eral Mechanical Properties of Materials[J].Metallurgical Trans-actions,1970(01):1169. |
| [18] | Hwang B;Lee C G;Lee T H .Correlation of Microstructure and Mechanical Properties of Thermomechanically Processed Low-Carbon Steels Containing Boron and Copper[J].Metallurgical and Materials Transactions:A,2010,41:85. |
| [19] | Hwang B;Kim Y G;Lee S et al.Effective Grain Size and Charpy Impact Properties of High-Toughness X70 Pipeline Steels[J].Metallurgical and Materials Transactions:A,2005,36:2107. |
| [20] | Liu D S;Li Q L;Emi T .Microstructure and Mechanical Proper-ties in Hot-Rolled Extra High-Yield Strength Steel Plates for Offshore Structure and Shipbuilding[J].Metallurgical and Mate-rials Transactions:A,2011,42:1349. |
| [21] | Shu-tao Wang,Shan-wu Yang,Ke-wei Gao,Xin-lai He.Corrosion behavior and corrosion products of a low-alloy weathering steel in Qingdao and Wanning[J].矿物冶金与材料学报,2009(01):58-64. |
| [22] | 耐候钢耐蚀性能的评定[J].北京科技大学学报,2005(05):549-551. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%