汇总了通过监测结晶器热行为和铸坯与结晶器之间的摩擦力预测结晶器内连铸坯表面裂纹形成的研究工作,介绍了用于预测连铸裂纹的数学模型以及基于临界应力应变和形成裂纹变形能差的连铸裂纹判据,提出了裂纹预测研究的发展方向.
参考文献
| [1] | S.Kumar;J.A.Meech .Development of intelligent mould for online detection of defects in steel billets[J].Ironmaking & Steelmaking: Products and applications,1999(4):269-284. |
| [2] | Emling W H;Daoson S.Mold Instrumentation for BreakoutDetection and Control[A].Ontario,1991:197-217. |
| [3] | Irving W R .On Line Quality Control for Continuously CastSemis[J].Ironmaking and Steelmaking,1990,17(03):197-202. |
| [4] | 吴振刚,孟秀梅.薄板坯连铸纵裂纹的控制[J].冶金标准化与质量,2001(03):15-17. |
| [5] | Billany T J H .Surface Cracking in Continuously Cast Products[J].Ironmaking and Steelmaking,1991,18(06):403-410. |
| [6] | 山上諄.鑄造監視システムの開発[J].铁と钢(日本),1986(04):144. |
| [7] | EMLING W H .A Thermocouple-Based System for BreakoutPrevention and Practice Development[J].Ironmaking and Steelmaking,1988,15(09):47-51. |
| [8] | Kee Chye.Utilization of Plant Process Data for the CasterQuality Prediction Model[A].北京,1993:596-605. |
| [9] | Dr-Ing Klaus Wunnenberg .10th Mannesmann ContinuousCasting Conference[J].Ironmaking and Steelmaking,1995,22(05):346-348. |
| [10] | Stewart D.板坯连铸中纵向裂纹的预测[J].国外钢铁,1997(11):34-37. |
| [11] | Mairy B;Wolf M.在连续铸钢中控制结晶器摩擦力的重要性[A].北京:中国金属学会连续铸钢学会,1986:207-217. |
| [12] | S.Sridhar;K.C.Mills .Break temperatures of mould fluxes and their relevance to continuous casting[J].Ironmaking & Steelmaking: Products and applications,2000(3):238-242. |
| [13] | 陈亚贤,张立,吴建明,冯骏,赵维仪,陈依雯,叶锦渭,姚曼,方大成.结晶器振动阻力在线监测技术的应用研究[C].中国钢铁年会论文集,2001:682-685. |
| [14] | 姚曼,杨建华,杜波,姜苍华,宫德成,陈亚贤,张立.连铸结晶器摩擦力预报漏钢可行性研究[C].第十二届全国炼钢学术会议,2002:571-576. |
| [15] | Mali B R Y.结晶器检测的长期发展[A].北京:中国金属学会连铸学会,1991:134-141. |
| [16] | Anton Wagner,Josef Watzinger,Andreas Flick.美国阿拉巴马莫比尔依普斯科公司采用热装方式的超宽板坯连铸机[C].2002年薄板坯连铸连轧国际研讨会论文集,2002:88-95. |
| [17] | Kelly J E .Initial Development of Thermal and Stress Fields inContinuously Cast Steel Billet[J].Metallurgical and Materials Transactions,1988,19:2589-2601. |
| [18] | 杨秉俭 .薄板坯连铸结晶器中铸坯凝固壳应力发展的有限元分析[J].应用力学学报,1994,11(02):55-62. |
| [19] | A. E. Huespe;A. Cardona;V. Fachinotti .Thermomechanical model of a continuous casting process[J].Computer Methods in Applied Mechanics and Engineering,2000(3-4):439-455. |
| [20] | Thomas B G .Mathematical Model of the Thermal Processingof Steel Ingot, Part Ⅱ Stress Model[J].Metallurgical and Materials Transactions,1987,18(01):131-143. |
| [21] | 王恩刚;赫冀成 .结晶器内连铸小方坯凝固过程及应力分布的有限元数值模拟[J].金属学报,1999,35(04):434-438. |
| [22] | A. E. Huespe;A. Cardona;N. Nigro;V. Fachinotti .Visco-plastic constitutive models of steel at high temperature[J].Journal of Materials Processing Technology,2000(1/3):143-152. |
| [23] | Boehmer JR.;Jordan M.;Fett FN.;Funk G. .Strategies for coupled analysis of thermal strain history during continuous solidification processes[J].Advances in engineering software,1998(7/9):679-697. |
| [24] | Samarasekera I V;Brimacombe J K .Thermal and MechanicalBehavior of Continuous Casting Billet Moulds[J].Ironmaking and Steelmaking,1982,9(01):1-15. |
| [25] | 荆德君,蔡开科.连铸结晶器内铸坯温度场和应力场耦合过程数值模拟[J].北京科技大学学报,2000(05):417-421. |
| [26] | Young M W .Analysis of Solidification Cracking Using theSpecific Crack Susceptibility[J].ISIJ International,2000,40(21):29-136. |
| [27] | Won Y. M.;Yeo T.-J. .A New Criterion for Internal Crack Formation in Continuously Cast Steels[J].Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science,2000(4):779-794. |
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%