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Mg-Cu-(Al-Si)-Y大块非晶合金的制备及晶化研究 被引量:2

Study on Fabrication and Crystallization of Mg-Cu-(Al-Si)-Y Bulk Amorphous Alloy
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摘要 采用Al-Si合金部分替代Mg65Cu25Y10大块非晶合金中的Cu元素,形成Mg-Cu-(Al-Si)-Y非晶合金。通过铜模浇注法制备Mg-Cu-(Al-Si)-Y大块非晶合金,发现Al-Si合金的添加对非晶合金的玻璃形成能力没有明显改善,但改善了非晶合金的室温塑性。在晶化温度附近低于晶化温度的条件下对铜辊旋淬法制备的Mg-Cu-(Al-Si)-Y非晶条带进行了处理。结果表明,Mg-Cu-(Al-Si)-Y非晶合金随加热温度的提高和处理的时间的延长晶化程度也随之提高,同时加热晶化增大了合金的室温脆性。 Cu in Mg65Cu25Y10 bulk amorphous alloy was replaced by Al-Si alloy to form an Mg-Cu-(Al-Si)-Y amorphous alloy. Mg-Cu-(Al-Si)-Y bulk amorphous alloy was fabricated by the traditional copper mould method. It is proposed that the addition of Al-Si alloy hasn't change the glass forming ability of the alloy considerably while it has improved the plasticity of the alloy at ambient temperature. Mg-Cu-(Al-Si)-Y amorphous ribbons fabricated by melt-spinning method have been treated at temperatures near but below the crystallization temperature. It is clear that the crystallization fraction of Mg-Cu-(Al-Si)-Y amorphous alloy will increase with increasing heating temperature or treating time. The ribbons have been found to be more brittle after reheating.
作者 张伟 陈刚 李宝贵
机构地区 江苏大学材料科学与工程学院
出处 《热加工工艺》 CSCD 北大核心 2006年第8期21-24,共4页 Hot Working Technology
基金 教育部留学回国人员科研启动基金资助项目(2005) 江苏大学高级人才基金资助项目(04JDG018)
关键词 大块非晶合金 塑性 晶化 bulk amorphous alloy plasticity crystallization
分类号 TG139.8 [一般工业技术—材料科学与工程]
  • 相关文献

参考文献8

  • 1Inoue A,Kawamura Y,Matsushita M,et al.High Strength nanoc rystalline Mg-based alloys[J].Mater.Sci.Forum,2002,(386/388):509-518.
  • 2Inoue A,Kimura H,Amiya K.Development of aluminum and magnesium-based nanophase high-strength alloys by use melt quenching-induced metastable phase[J].Mater.trans.JI M,2002,43(8):2006-2016.
  • 3Audebert F,Rozenberg S,Galano M.Rapidly quenched Mg65YxCu25-xMM10 (MM:Mischmetal) alloys[J].J Non-Cryst Solids,2001,287:45-49.
  • 4Inoue A,ZHANG Tao,Takeuchi A.Ferrous and nonferrous bulk amorphous alloys[J].Mater.Sci.Forum.,1998,(269/272):855-864.
  • 5Inoue A.Stabilization of metallic supercooled liquid and bulk amorphous alloys[J].Acta.mater,2000,48:279-306.
  • 6Linderoth S,Pryds N H,Ohnuma M,et al.On the stability and crystallization of bulk amorphous Mg-Cu-Y-A1 alloys[J].Mater.Sci.Eng.,2001,A 304-306:656-659.
  • 7陈刚,王宁,张伟.Mg_(65)Cu_(25)Y_(10)金属玻璃时效处理的研究[J].热加工工艺,2005,34(10):13-14. 被引量:4
  • 8Inoue A,Kato A,ZHANG Tao,et al.Mg-Cu-Y amorphous alloys with high mechanical strengths produced by a metallic mold casting method[J].Mater.Trans.JIM,1991,32(7):609-616.

二级参考文献14

  • 1Eldrup M, Schr φ der Pedersen A, Ohnuma M, et al. Bulk amorphous alloys: preparation and properties of (Mg0.98Al0.92)x (Cu0.75Y0.25)100-x[J].Mater. Sci. Forum. ,2000,343/346:123-128.
  • 2Inoue A,Kimura H,Amiya K. Develop of aluminum and magnesium-based nanophase high-strengh alloys by use melt quenching-induced metastable phase [J]. Mater. Trans . JIM,2002,43 (8):2006-2016.
  • 3Linderoth S,Pryds N H, Ohnuma M,et al. On the stability and crystallization of bulk amorphous Mg-Cu-Y-Al alloys[J]. Mater. Sci. Eng.,2001,304/306: A656-659.
  • 4Men H,Yang M, Xu J. Glass-forming ability of Mg-Cu-Co-Y alloy [J].Mter. Sci. Forum. ,2002,386/388: 39-46.
  • 5Bartush B, Schurack F,Eckert J, High strength Magnesium based glass matrix composites[J]. Mater. Trans. JIM, 2002,43 (8): 1979-1984.
  • 6Amiya K,Inoue A. Thermal stability and mechanical properties of Mg-Y-Cu-M (M=Ag, Pd)bulk amorphous alloys [J]. Mater. Trans. JIM,2000,41 ( 11 ): 1460-1462.
  • 7Gyoo Kim S,Inoue A,Masumoto T. High mechanical strengths of Mg-Ni-Y and Mg-Cu-Y amorphous alloys with significant supercooled liquidregion[J]. Mater. Trans. JIM, 1990, 31 ( 11 ): 929-934.
  • 8Busch R,Liu W,Johnson W L. Thermodynamics and kinetics of the Mg65Cu25Y10bulk metallic glass forming liquid [J]. J. Appl. Phys. ,1998,83(8) :4134-4141.
  • 9Murty B S, Hono K. Forming ofnanocrystalline particle in glassy matrix in melt-spun Mg-Cu-Y based alloys [J]. Mater. Trans. JIM,2000,41(11):1538-1544.
  • 10Inoue A,Kato A,Zhang Tao,et al. Mg-Cu-Y amorphous alloys with high mechanical strengths produced by a metallic mold casting method[J]. Mater. Trans. JIM, 1991,32 (7): 609-616.

共引文献3

同被引文献11

  • 1姚可夫,阮芳.Pd-Si Binary Bulk Metallic Glass Prepared at Low Cooling Rate[J].Chinese Physics Letters,2005,22(6):1481-1483. 被引量:4
  • 2傅明喜,查燕青,李岩,宗华.Cu对非晶Fe_(74)Al_4Ga_2P_(12)B_4Si_4合金晶化行为的影响[J].热加工工艺,2006,35(8):15-17. 被引量:2
  • 3庞利佳,孙光飞,陈菊芳,强文江,张锦标,黎文安.纳米晶复合Pr_2Fe_(14)B/α-Fe永磁材料磁性的研究[J].物理学报,2006,55(6):3049-3053. 被引量:5
  • 4Yang S,Li S D,Liu X S.Exchange Coupled Nd2 Fe14 B/α-Fe Nanocomposite Magnets with Fineα-Fe Grains Obtained by Low Wheel Speed Spinning[J].Journal of Alloys and Compounds,2002,343:217.
  • 5Wang Zuo-cheng,Zhang Mao-cai,Li Fu-biao.High Coercivity (NdDy) 2 (FeNb) 14B/α-Fe Nanocrystalline Alloys[J].J Appl Phys,1997,81(8):5097.
  • 6Chang W C,Chiou D Y,wu S H.High Performance α-Fe/Nd2 Fe14 B-type Nanocomposites[J].Appl Phys Lett,1998,72(1):121.
  • 7Schrefl T,Fidler J.Micromagnetic Simulation of Magnetizability of Nanocomposite Nd-Fe-B Magnets[J].J Appl Phys,1998,83:6262.
  • 8Bauer J,Seeger M,Zerm A.Nanocrystalline FeNdB Permanent Magnets with Enhanced Remanence[J].J Appl Phys,1996,80(3):1667.
  • 9Liu J H,Zhang P Y,Zhang J W.Crystallization Kinetics of Pr8Fe(86-x)ZrxB6 Amorphous Alloys[J].J Iron & Steel Res.,Int,2002,9(2):49.
  • 10Ozawa T.Kinetics of Non-isothermal Crystallization[J].Polymer,1971,12(8):150.

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热加工工艺
2006年 第8期

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