2004, Volume 6, Issue 1
Strategic Study of CAE >> 2004, Volume 6, Issue 1
Research of Glasses Forming Ability of Bulk Metallic Glasses Based on Kinetics
1. Department of Mechanical Engineering , Southeast University , Nanjing 210096 , China
2. Department of Physics , Loudi Normal College , Loudi , Hunan 417000 , China
Next Previous
Abstract
The key step of exploiting new type BMG is to judge quickly the glass forming ability (GFA) of bulk metallic glasses (BMG). The reliability and limitation that Trg was suited for judging of the GFA of BMG was made clear by using dynamics based on the addition principle in this paper, and the theory basis was provided for making BMG. The minimum of Trg for forming the BMG was 0.4066, at the same time, two theory optimum Trg, i.e. Trg = 1, Trg = 0, were obtained. A new parameter (CPS) for judging the magnitude or the smooth and stability of GFA of BMG was put forward, the magnitude of GFA of BMG was calculated by using it. The result of sequence of GFA of BMG was unanimous to Inoue's. At one time, the results were examined according to the average variance of Zmax and Rc of BMG, and all results were measured with one another. The magnitude of AHmg was a feasible method for quickly appraising the capacity and stability of GFA of BMG.
Keywords
kinetics ; bulk metal glasses ; glass forming ability ; addition principle ; stability
Figures
图1
图2
图3
图4
References
[ 1 ] DingXueyong, FanPeng, WangWenzhong.Thermodynamiccalculationforalloysystems[J].MetMaterTrans, 1999, 30B :271~277 link1
[ 2 ] ZhangShouguo, YuYang.Therhombunitstructuralmodelofamorphousalloys[J].MaterSciandEngineering, 1991, A134:1004~1007
[ 3 ] InoueA , ShibataTsutomu.Effectofadditionalelementson glasstransitionbehaviorand glassformationtendencyofZrAlCuNiAlloys[J].MaterTransJIM , 1995, 36 (12) :1420~1426
[ 4 ] 王晓东, 齐 民, 董 闯.铝元素的添加对锆基合金非晶形成能力影响的电子结构模型[J].金属学报, 2002, 38 (12) :1241~1245 link1
[ 5 ] 邢大伟, 孙剑飞, 王 刚, 等.Sn对ZrTiNiCuAl非晶合金玻璃形成能力的影响[J].特种铸造及有色合金, 2002, (6) :12~14 link1
[ 6 ] LuZP , LiY , NgSC .Reducedglasstransitiontemperatureand glassformingabilityofbulk glassformingalloys[J].JNonCrystSolids, 2000, 270 (1~3) :103
[ 7 ] 王焕荣, 石志强, 藤新营, 等.合金非晶形成能力的研究进展[J].功能材料, 2002, 33 (4) :357~359 link1
[ 8 ] TakeuchiA , InoueA .Calculationofmixingentralpyandmismatchentropyforternaryamorphousalloys[J].MaterTransJIM , 2000, 41 (11) :1372
[ 9 ] InoueA .Highstrengthbulkamorphousalloyswithlowcriticalcoolingrates[J].MaterTransJIM , 1995, 36 (7) :866~875
[10] ZhangY , ZhaoDQ , PanMX , etal.GlassformingpropertiesofZr basedbulkmetallicalloys[J].JNonCrystSolids, 2003, 315 (1—2) :206~210
[11] LuZP , TanH , LiY , etal.Thecorrelationbetweenreducedglasstransitiontemperatureandglassformingabilityofbulkmetallicglasses[J].ScriptaMater, 2000, 42 (7) :667~673
[12] LuZP , LiuCT .Anewglass formingabilitycriterionforbulkmetallicglasses[J].ActaMaterialia, 2002, 50 (3) :3501~3512
[13] InoueA , ZhangTao.Supercooledliquidandbulkglassyalloysinferrousandnon ferroussystems[J].JNon-CrystSolids, 1999, 250~252 (2) :552~559
[14] 戴道生, 韩汝琪.非晶态物理[M ].北京:电子工业出版社, 1989.14~56 link1
京公网安备 11010502051620号
