Ni75AlxV25-x合金中反相畴界有序无序化的微观相场模拟

材料热处理学报, 2013, 34(1): 163-169.

Ni75AlxV25-x合金中反相畴界有序无序化的微观相场模拟

张明义 ^1, , 杨坤 ^2, , 陈铮 ^3, , 王永欣 ^4, , 张嘉振 ^5,

1.西北工业大学凝固技术国家重点实验室,陕西西安710072;中国商用飞机有限责任公司北京民用飞机技术研究中心,北京100083

2.西北工业大学凝固技术国家重点实验室,陕西西安710072

3.西北工业大学凝固技术国家重点实验室,陕西西安710072

4.西北工业大学凝固技术国家重点实验室,陕西西安710072

5.中国商用飞机有限责任公司北京民用飞机技术研究中心,北京100083

基金项目: 国家自然科学基金项目(50941020,10902086,50875217,20903075)

关键词：微观相场 , 反相畴界 , 有序无序化 , Ni75AlxV25-x合金 , 粗化

Microscopic phase-field study on the order-disorder transition of antiphase domain boundary in Ni75AlxV25-x alloys

基于微观相场模型研究了Ni75AlxV25-x合金中L12-Ni3Al相间反相畴界和DO22-Ni3V相间反相畴界的有序无序化过程.结果表明,伴随着Ⅴ的富集,Al和Ni的贫化,L12相间反相畴界(200) L//(200)L·1/2[001]L和(200)L//(200)L均发生有序无序化；DO22相间反相畴界是否发生有序无序化与界面结构有关,伴随着Ni和Al的富集,Ⅴ的贫化,DO22相间反相畴界(001)D//(002)D处发生有序无序化,而反相畴界[100]D·1/2[100]D始终保持有序,且成分演化与(001)D//(002)D处完全相反.有序无序化过程中的反相畴界处的成分演化有利于第二相在界面处形核.反相畴界处无序相的长大伴随着部分晶粒的长大和部分晶粒的消失,反相畴界有序无序化可以视为晶粒粗化阶段的伴随过程.

参考文献

[1]	Tang M;Carter WC;Cannon RM .Grain boundary order-disorder transitions[J].Journal of Materials Science,2006(23):7691-7695.
[2]	D.K. Lee;K.J. Ko;B.J. Lee .Monte Carlo simulations of abnormal grain growth by sub-boundary-enhanced solid-state wetting[J].Scripta materialia,2008(8):683-686.
[3]	Kyung-Jun Ko;Pil-Ryung Cha;David Srolovitz .Abnormal grain growth induced by sub-boundary-enhanced solid-state wetting: Analysis by phase-field model simulations[J].Acta materialia,2009(3):838-845.
[4]	B.B. Straumal;O. Kogtenkova;P. Zieba .Wetting transition of grain-boundary triple junctions[J].Acta materialia,2008(5):925-933.
[5]	Shi X M;Luo J .Decreasing the grain boundary diffusivity in binary alloys with increasing temperature[J].Physical Review Letters,2010,105:236102.
[6]	B. Straumal;B. Baretzky .Grain Boundary Phase Transitions and their Influence on Properties of Polycrystals[J].Interface science,2004(2/3):147-155.
[7]	Sakata T;Yasuda H Y;Umakoshi Y .Effect of coherency on interphase boundary sliding in NiAl(β3) bicrystals with film-like Ni3Al(γ') precipitate along boundary[J].Scripta Materialia,2003,48:749-753.
[8]	Mellenthin J;Karma A;Plapp M .Phase-field crystal study of grain-boundary premelting[J].Physical review, B. Condensed matter and materials physics,2008(18):184110-1-184110-22-0.
[9]	Becker, CA;Mishin, Y;Boettinger, WJ .The pre-wetting transition at antiphase boundaries: an atomistic modeling study of Ni3Al[J].Journal of Materials Science,2008(11):3873-3880.
[10]	Y. Mishin .Atomistic modeling of the γ and γ'-phases of the Ni–Al system[J].Acta materialia,2004(6):1451-1467.
[11]	Mishin Y;Boettinger W J;Warren J A et al.Thermodynamics of grain boundary premelting in alloys.Ⅰ.Phase-field modeling[J].Acta Materialia,2009,57(13):3771-3785.
[12]	Williams P L;Mishin Y .Thermodynamics of grain boundary premelting in alloys.Ⅱ.Atomistic simulation[J].Acta Materialia,2009,57(13):3786-3794.
[13]	Wang Y;Banerjee D;Su C C et al.Field kinetic model and computer simulation of precipitation of L12 ordered intermetallics from f.c.c.solid solution[J].Acta Materialia,1998,46(09):2983-3001.
[14]	Khachaturyan A G.Theory of Structural Transformations in Solids[M].Wiley-VCH:New York,1983
[15]	R.Poduri;L.-Q.Chen .Computer simulation of atomic ordering and compositional clustering in the pseudobinary Ni_3Al-Ni_3V system[J].Acta materialia,1998(5):1719-1729.
[16]	Wang Y;Chen L Q;Khachaturyan A G .Particle translational motion and reverse coarsening phenomena in multiparticle systems induced by a longrange elastic interaction[J].Physical Review B:Condensed Matter,1992,46:11194.
[17]	Thornton K.;Voorhees PW.;Akaiwa N. .Dynamics of late-stage phase separation in crystalline solids[J].Physical review letters,2001(7):1259-1262.
[18]	Prikhodko S V;Carnes J D;Saak D G et al.Elastic constants of a Ni-12.69 at％ Al alloy from 295 to 1300 K[J].Scripta Materialia,1997,38:67-75.
[19]	Miyazaki T;Imamura M;Kozati T .The formation of "γ' precipitate doublets" in Ni-Al alloys and their energetic stability[J].Materials Science and Engineering A:Structural Materials Properties Microstructure and Processing,1982,54:9-15.
[20]	Singh J B;Sundararaman M;Banerjee S et al.Evolution of order in melt-spun Ni-25at% V alloys[J].Acta Materialia,2005,53:1135-1143.
[21]	赵彦,陈铮,张济祥,王永欣,张利鹏.Ni75Al21.5Ti3.5合金时效行为的微观相场计算[J].材料热处理学报,2009(03):192-197.
[22]	Yan Li Lu;Zheng Chen;Yong Xin Wang .Microscopic phase-field simulation of the early precipitation mechanism of Ni_3Al phase in Ni-Al alloys[J].Materials Letters,2008(8/9):1385-1388.
[23]	Zapolsky H.;Marteau L.;Blavette D.;Chen LQ.;Pareige C. .Atom probe analyses and numerical calculation of ternary phase diagram in Ni-Al-V system[J].Calphad: Computer Coupling of Phase Diagrams and Thermochemistry,2001(1):125-134.

上一张下一张

计量

下载量()
访问量()

作者相关

文章评分

您的评分：
1

0%
2

0%
3

0%
4

0%
5

0%

材料期刊网