在微合金钢连铸生产过程中,角部横裂纹一直未得到有效解决,裂纹的存在减少了铸坯热送量.严重影响生产顺行.综述了微合金连铸坯角部横裂纹的形成机理,重点分析了铌、钒、钛等微合金元素对角部横裂纹的影响,分析了防止横裂纹产生的措施,认为消除微合金钢连铸坯角部横裂纹的最有效方法是控制铸坯表层微观组织,使其具有较低的裂纹敏感性,克服连铸弯曲与矫直过程中产生的应力,而不产生裂纹.
参考文献
| [1] | 蔡开科.连铸技术的进展(一)[J].炼钢,2001(01):7-12. |
| [2] | 蔡开科;程士富.连续铸钢原理与工艺[M].北京:冶金工业出版社,2005:263. |
| [3] | 贺景春,陈建军,梁志刚.连铸坯裂纹主要影响因素及对策研究[J].包钢科技,2004(05):8-13. |
| [4] | Mintz B .The influence of composition on the hot ductility of steals and to the problem of transverse cracking[J].ISIJ International,1999,39(09):833. |
| [5] | Harada S;Tanaka S;Misumi H et al.A formation mechanism of transverse cracks on CC Slab surface[J].ISIJ International,1990,30(04):310. |
| [6] | Hwang B;Lee HS;Kim YG;Lee S .Analysis and prevention of side cracking phenomenon occurring during hot rolling of thick low-carbon steel plates[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2005(1/2):177-187. |
| [7] | Takeuchie E;Brimacombe J K .Effect of oscillation-mark formation on the surface quality of continuously cast steel slabs[J].Metallurgical and Materials Transactions B:Process Metallurgy and Materials Processing Science,1985,16(09):605. |
| [8] | Dobrovska J;Stransky K;Kavicka F et al.Analysis of a transversal crack in a steel slab[J].Materials Science Forum,2008,567-568:105. |
| [9] | Wolf M.含Nb高强度钢连铸板坯的表面横向裂纹[A].北京,1986:193. |
| [10] | Brimacomabe J K;Sorimachi K .Crack formation in the continuous casting of steel[J].Metallurgical and Materials Transactions B:Process Metallurgy and Materials Processing Science,1977,8(09):489. |
| [11] | Turkdogan E T .Causes and effects of nitride and carbonitride precipitation during continuous casting[J].Ironmaking and Steelmaking,1989,16(05):61. |
| [12] | Crowther D N.The effects of microalloying elements on cracking during continuous casting[J].CPRUS Res Development Techn,2005(04):262. |
| [13] | Matsuda S;Okumura N .Effect of distribution of TiN precipitate particle on the austenite grain size of low carbon low alloy steels[J].ISIJ International,1978,18(03):198. |
| [14] | Liu W J;Joanas J J .Calculation of the Ti (C_yN_(1-y[J].Metallurgical and Materials Transactions A:Physical Metallurgy and Materials Science,1989,20(08):1361. |
| [15] | X.Yang .Solubility Products of Titanium Sulphide and Carbosulphide in Ultra-low Carbon Steels[J].ISIJ International,1996(10):1286-1294. |
| [16] | 雍岐龙,刘正东,孙新军,曹建春,赵昆渝,张永,查小琴.钛微合金钢中碳氮化钛固溶量及化学组成的计算与分析[J].钢铁钒钛,2005(03):12-16. |
| [17] | Todd J A;Li P .Microstructure-mechanical property relationships in isothermally transformed vanadium steels[J].Metallurgical and Materials Transactions A:Physical Metallurgy and Materials Science,1986,17(07):1191. |
| [18] | 王新华;昌波 等.700~1000℃间含铌钢铸坯的延塑性降低与Nb(C,N)的析出[J].金属学报,1997,33(05):485. |
| [19] | 王国承,王铁明,尚德礼,方克明.超细第二相粒子强化钢铁材料的研究进展[J].钢铁研究学报,2007(06):5-8. |
| [20] | Mintz B;Abusbosa R .The hot ductility of V,Nb/V and Nb containing steels in rnicroalloying in steels[J].Materials Science Forum,1998,284:461. |
| [21] | Toru KATO;Yoshiki ITO;Masayuki KAWAMOTO .Prevention of Slab Surface Transverse Cracking by Microstructure Control[J].ISIJ International,2003(11):1742-1750. |
| [22] | 王新华;刘新宇;吕文景 等.含Nb,V,Ti钢连铸坯中碳、氮化物的析出及钢的高温塑性[J].钢铁研究学报,1998,10(06):32. |
| [23] | 王明林,成国光,仇圣桃,赵沛,干勇.凝固过程中含钛析出物的析出行为[J].钢铁研究学报,2007(05):44-48,53. |
| [24] | 余圣甫,雷毅,黄安国,谢明立,李志远.氧化物冶金技术及其应用[J].材料导报,2004(08):50-52. |
| [25] | Pryds N H;Huang X .The effect of cooling rate on the microstructures formed during solidification of ferrific steel[J].Metallurgical Transactions A,2000,31(12):3155. |
| [26] | 王立来,赵雷.减少厚板坯表面横裂纹的研究[J].鞍钢技术,2004(05):13-16. |
| [27] | 许晞,吴国庆,岑永权.浦钢连铸大板坯表面横裂成因及对策分析[J].上海金属,2000(01):26-30. |
| [28] | Tsai H T .板坯横向角裂分析及其对策[J].钢铁译文集,2007,23(01):25. |
| [29] | H.Mabuchi .The Role of Mn Depletion in Intra-Granular Ferrite Transformation in the Heat Affected Zone of Welded Joints with Large Heat Input in Structural Steels[J].ISIJ International,1996(11):1406-1412. |
| [30] | J.M.GREGG;H.D.H.BHADESHIA .SOLID-STATE NUCLEATION OF ACICULAR FERRITE ON MINERALS ADDED TO MOLTEN STEEL[J].Acta materialia,1997(2):739-748. |
| [31] | Shim J H;Byun J S;Cho Y W et al.Hot deformation and acicular ferrite microstructure in C-Mn steel containing Ti2O_3 inclusiona[J].ISU International,2000,40(08):819. |
| [32] | Suzuki H G;Nishimura S;Yamaguchi S .Characteristics of embrittlerment in steels above 600℃[J].Tetsu To Hagane-Journal of the Iron & Steel Institute of Japan,1979,65(14):2038. |
| [33] | Suzuki H G;Nishimura S;Imamura J et al.Hot ductility in steels in the temperature range between 900 and 600℃[J].Tetsu To Hagane-Journal of the Iron & Steel Institute of Japan,1981,67(08):1180. |
| [34] | Young Joo Oh;Sang-Yoon Lee .Non-Metallic Inclusions and Acicular Ferrite in Low Carbon Steel[J].Materials transactions,2000(12):1663-1669. |
| [35] | Hyung-Ha JIN;Jae-Hyoek SHIM;Young Whan CHO;Hu-Chul LEE .Formation of Intragranular Acicular Ferrite Grains in a Ti-containing Low Carbon Steel[J].ISIJ International,2003(7):1111-1113. |
| [36] | Baba N;Ohta K et al.Prevention of slab surface transverse cracking at Kashima No.2 caster with surface structure control cooling (SSC)[J].Revue De Metallurgie,2006,103(04):158. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%