利用现代高温热膨胀检测技术并结合热物性模型计算,获得了连铸过程含碳量在0.09%~0.75%之间常用8个钢种的线性热膨胀、瞬时线膨胀系数及其温度相关性.试验结果表明,连铸冷却条件下,钢的线性热膨胀和与之相关的瞬时线膨胀系数在奥氏体温区、固态相变温区和相变结束至室温等三个温区内受碳含量的影响程度不同.利用试验数据对瞬时线膨胀系数的模型计算进行了验证,并研究凝固过程以及热历程对钢的热膨胀特性的影响;分析了瞬时线膨胀系数与平均线膨胀系数的差异以及不同钢种间热膨胀的差异性.
参考文献
| [1] | 苗恩铭.材料热膨胀系数影响因素概述[J].工具技术,2005(05):26-29. |
| [2] | 崔立新 .板坯连铸动态轻压下工艺的三维热-力学模型研究[D].北京:北京科技大学,2006. |
| [3] | 靳星,陈登福,王启明,高兴健.连铸坯热膨胀性能测试[J].过程工程学报,2009(z1):206-209. |
| [4] | 陈家祥.连续铸钢手册[M].北京:冶金工业出版社,1991 |
| [5] | ASM.ASM Handbook,Volume 01 Properties and Selection:Nonferrous Alloys and Special-Purpose Materials[M].Ohio:ASM International,1990 |
| [6] | YA MENG;BRIAN G. THOMAS .Heat-Transfer and Solidification Model of Continuous Slab Casting: CON1D[J].Metallurgical and Materials Transactions, B. Process metallurgy and materials processing science,2003(5):685-705. |
| [7] | GB/T 4339-1999,金属材料热膨胀特征参数的测定[S].北京:国家质量技术监督局,2000. |
| [8] | ASTM.E228-95, Standard Test Method for Linear Thermal Expansion of Solid Materials With a Vitreous Silica Dilatometer[S].Philadelphia:ASTM International,1995. |
| [9] | ASTM.E289-99,Standard Test Method for Linear Thermal Expansion of Rigid Solids With Interferometry[S].Philadelphia:ASTM International,1999. |
| [10] | ASTM.E831-2006,Standard Test Method for Linear Thermal Expansion of Solid Materials by Thermomechanical Analysis[S].Philadelphia:ASTM International,2006. |
| [11] | 杨新圆,孙建平,张金涛.材料线热膨胀系数测量的近代发展与方法比对介绍[J].计量技术,2008(07):33-36. |
| [12] | 钱宏智;张家泉;崔立新.非平衡固相线及其对连铸轻压下有效区间影响的研究[A].湖北武汉,2009:157. |
| [13] | Jablonka A;Harste K;Schwerdtfeger K .Thermomechanical Properties of Iron and Iron-Carbon Alloys:Density and Thermal Contraction[J].Steel Researeh International,1991,62(01):24. |
| [14] | Harste K .Investigation of the Shrinkage and the Orgin of Mechanical Tension During the Solidification and Successive Cooling of Cylindrical Bara of Fe-C Alloys[D].Clausthal:Technical University of Clausthal,1989. |
| [15] | Miettinen J;Louhenkilpi S .Calculation of Thermophysical Properties of Carbon and Low Alloyed Steels for Modeling of Solidification Processes[J].Metallurgical and Materials Transactions,1994,25B(12):909. |
| [16] | Jimbo I;Cramb A W .The Density of Liquid Iron-Carbon Alloys[J].Metallurgical and Materials Transactions,1993,24B:5. |
| [17] | Hideo MIZUKAMI;Akihiro YAMANAKA;Tadao WATANABE .Prediction of Density of Carbon Steels[J].ISIJ International,2002(4):375-384. |
| [18] | Mizukami H;Shirai Y;Yamanaka A et al.Prediction of Density of Stainless Steels[J].ISIJ International,2000,40(10):987. |
| [19] | Atkins M.Atlas of Continuous Cooling Transformation Diagrams for Engineering Steels[M].Sheffield:British Steel Corporation,1977 |
| [20] | 王树青,詹新伟.U74、U71Mn、U75V、U76NbRE钢轨欠速淬火性能研究[J].金属热处理,2004(03):12-16. |
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