通过Fluxing提纯技术和J-quenching快速凝固技术相结合的方法,成功制备了基于工业级原料的Fe80-MoxP13C7(x=0,4,8,12)块体非晶态合金.结果表明,少量的Mo置换Fe能够提高Fe80 P13 C7合金的玻璃化形成能力,当Mo的替换量为8%时,合金的玻璃化形成临界尺寸达到4mm,然而Mo含量的进一步增加则使合金的玻璃化形成能力降低.随着Mo含量的增加,FeMoPC块体非晶态合金的玻璃转变温度(Tg)和起始晶化温度(Tx)单调增加,而冷液相区宽度(△Tx=Tx-Tg)先增大后减小.压缩测试结果显示,随着Mo含量的增加,FeMoPC块体非晶态合金的压缩断裂强度(σf)和塑性应变(εp)都先增大后减小,当Mo含量为8%时,合金的σf和εp都分别达到了最大值3.6 GPa和4.6%.磁性测试结果表明,随着Mo含量从0%增加到12%,FeMoPC块体非晶态合金的饱和磁化强度从1.42T降为0.33T,这可能是由于Mo与Fe原子间反铁磁耦合造成的.
参考文献
| [1] | A. Inoue;B.L. Shen;C.T. Chang.Fe- and Co-based bulk glassy alloys with ultrahigh strength of over 4000 MA[J].Intermetallics,20068/9(8/9):936-944. |
| [2] | C. Suryanarayana;A. Inoue.Iron-based bulk metallic glasses[J].International Materials Reviews,20133(3):131-166. |
| [3] | H.Y. Jung;S. Yi.Enhanced glass forming ability and soft magnetic properties through an optimum Nb addition to a FeeCeSieBeP bulk metallic glass[J].Intermetallics,201010(10):1936-1940. |
| [4] | H.X. Li;K.B. Kim;S. Yi.Enhanced glass-forming ability of Fe-based bulk metallic glasses prepared using hot metal and commercial raw materials through the optimization of Mo content[J].Scripta materialia,200712(12):1035-1038. |
| [5] | T. D. Shen;R. B. Schwarz.Bulk ferromagnetic glasses prepared by flux melting and water quenching[J].Applied physics letters,19991(1):49-51. |
| [6] | Qiang Li;Jinfeng Li;Pan Gong.Formation of bulk magnetic ternary Fe_(80)P_(13)C_7 glassy alloy[J].Intermetallics,2012:62-65. |
| [7] | Z. H. Gan;H. Y. Yi;J. Pu;J. F. Wang;J. Z. Xiao.Preparation of bulk amorphous Fe-Ni-P-B-Ga alloys from industrial raw materials[J].Scripta materialia,200311(11):1543-1547. |
| [8] | Wei Hua Wang.Roles of minor additions in formation and properties of bulk metallic glasses[J].Progress in materials science,20074(4):540-596. |
| [9] | X.J. Gu;S. Joseph Poon;Gary J. Shiflet.Mechanical properties of iron-based bulk metallic glasses[J].Journal of Materials Research,20072(2):344-351. |
| [10] | Kai Xu;Haibo Ling;Qiang Li.Effects of Co substitution for Fe on the glass forming ability and properties of Fe_(80)P_(13)C_7 bulk metallic glasses[J].Intermetallics,2014:53-58. |
| [11] | Z.P. LU;C.T. LIU.A new approach to understanding and measuring glass formation in bulk amorphous materials[J].Intermetallics,200410/11(10/11):1035-1043. |
| [12] | Akira Takeuchi;Akihisa Inoue.Classification of Bulk Metallic Glasses by Atomic Size Difference, Heat of Mixing and Period of Constituent Elements and Its Application to Characterization of the Main Alloying Element (Overview)[J].Materials transactions,200512(12):2817-2829. |
| [13] | O.N. Senkov;D.B. Miracle.Effect of the atomic size distribution on glass forming ability of amorPhous metallic alloys[J].Materials Research Bulletin: An International Journal Reporting Research on Crystal Growth and Materials Preparation and Characterization,200112(12):2183-2198. |
| [14] | Y.Q. Cheng;E. Ma.Atomic-level structure and structure-property relationship in metallic glasses[J].Progress in materials science,20114(4):379-473. |
| [15] | B. Yang;C. T. Liu;T. G. Nieh.Unified equation for the strength of bulk metallic glasses[J].Applied physics letters,200622(22):221911.1-221911.3. |
| [16] | 郭胜锋;王敬丰;张红菊;谢盛辉.合金微结构的调整对铁基块体金属玻璃室温塑性的影响[J].中国有色金属学报(英文版),2012(2):348-353. |
| [17] | Yao KF;Zhang CQ.Fe-based bulk metallic glass with high plasticity[J].Applied physics letters,20076(6):61901-1-61901-3-0. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%