运用固体与分子经验电子理论(EET)对Mg-Al合金熔体进行价电子结构分析,在此基础上构建了基本结构模型,获得熔体的基本结构信息.通过分析升温和降温过程中镁合金熔体黏度-温度关系曲线V(t)的不可逆现象,间接地对熔体结构信息的不可逆变化作出判断.结果表明:原子间各键共价电子对数na的差异是造成熔体结构信息变化的根本原因,直接导致合金熔体存在微观不均匀性;当温度升高至730℃附近时,结构相对稳定的原子集团内部的Al-MgⅢ(c)键开始发生断裂,熔体结构达到新平衡的相对均匀状态;遗传自固态组织中微观不平衡结构的消失和原子集团内部Al-MgⅢ键的破坏及原子发生的不可逆重排是曲线V(t)发生不可逆变化的本质原因.这对于深入认识镁合金熔体结构信息及探索凝固微观机制具有重要理论意义.
Through the empirical electron theory of solids and molecules (EET), the valence electron structure of Mg-Al alloy melt was analyzed. Based on the analysis, the basic structure model was established and the melt structural information was obtained. By analyzing the irreversible phenomenon of viscosity-temperature relationship curve V(t) of magnesium alloy melt in the temperature interval of ascent and descent, the irreversible change of the melt structural information would be judged indirectly. The results show that the number difference of covalent electron pair na of each bond between atoms is the ultimate reason of the different melt structural information, which induces micro-inhomogeneity in alloy melt directly; at near 730 ℃, Al-MgⅢ(c) bonds in the atomic clusters with relatively stable structure begin to break. At this time, the melt structure achieves a new equilibratory and relatively homogeneous state. Disappearance of micro-nonequilibrium structure inherited from solidified structure, breakage of Al-MgⅢ(c) bonds in the atomic clusters and irreversible rearrangement of atoms are the essential reason of irreversible change of curve V(t). It is very important for further understanding the melt structural information of magnesium alloy and exploring solidification micro-mechanics.
参考文献
| [1] | Yu R H .[J].Chinese Science Bulletin,1978,23:217. |
| [2] | Bernal J D .[J].Nature,1959,183:910. |
| [3] | 胡汉起.金属凝固原理[M].北京:机械工业出版社,1991:15. |
| [4] | Honig R E .[J].dournal of Chemical Physics,1953,21(03):126. |
| [5] | Meloni G.;Kingcade JE.;Gingerich KA.;Schmude RW. .Thermodynamic stability of Sn-4, Sn-5, Sn-6, and Sn-7 clusters by Knudsen cell mass spectrometry[J].The Journal of Chemical Physics,2000(5):1852-1856. |
| [6] | Kolobnev I F;Krimov V V;Polianskii A P.Caster Manual-Shaped Castings of Aluminium and Magnesium Alloys[M].Moscow:MASHGR,1957:5. |
| [7] | Shvidkovskii E G.Some Problems in the Viscosity of Molten Metals[M].Moscow:Gostekhizdat,1955:32. |
| [8] | WANG YuQing;WU YuQin;BIAN XiuFang .Composition dependence of viscosity for Al_((1-x))Mg_x(0<=x<=0.10) alloys[J].Chinese science bulletin,2007(11):1441-1445. |
| [9] | 李培杰 .Al-Si合金价电子结构研究[D].长春:吉林大学,1998. |
| [10] | 张瑞林.固体与分子经验电子理论[M].长春:吉林科学技术出版社,1993:231. |
| [11] | Min Xuegang;Du Wenwen;Xue Feng et al.[J].Chinese Science Bulletin,2002,47(02):109. |
| [12] | Yu Ruihuang.[J].Acta Scientia-rium Naturalium Universitatis Jilinensis,1979(04):54. |
| [13] | Mi G B;Li P J;Popel P S et al.[J].Sci China Phys Mech Astron,2010,53(11):2048. |
| [14] | Humble P .[J].Materials Forum,1997,21:45. |
| [15] | Zu F Q;Zhu Z G;Guo L J .[J].Physical Review Letters,2002,89(12):1. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%