通过单向压缩实验在试样长径比(H/D)和加载速率分别为1:1~2.5:1和1×10?5~1×10?2 s?1的条件下对Cu50Zr40Ti10?xNix (0≤x≤4,摩尔分数,%)块体金属玻璃的室温力学性能进行了系统研究。在长径比为1:1的情况下,当加载速率为1×10?4 s?1时,Cu50Zr40Ti10块体金属玻璃表现出超塑性;而Cu50Zr40Ti10?xNix (x=1~3,摩尔分数,%)块体金属玻璃在加载速度为1×10?2 s?1的条件下出现超塑性;塑性应变(εp)、屈服强度(σy)和断裂强度(σf)显著地依赖于长径比和加载速率;当加载速率为1×10?2 s?1时,长径比为1:1的块体金属玻璃的屈服强度几乎与其他长径比的块体金属玻璃的断裂强度接近;另外,本文作者也探讨了铜基块体金属玻璃力学性能对加载速率和长径比的响应机理。
Room-temperature mechanical properties of Cu50Zr40Ti10?xNix(0≤x≤4,mole fraction,%) bulk metallic glasses (BMG) with aspect ratios in the range of 1:1?2.5:1 and loading rates in the range of1×10?5?1×10?2s?1were systematically investigated by room-temperatureuniaxialcompression test.In the condition of an aspect ratio of 1:1, the superplasticity can be clearly observed for Cu50Zr40Ti10BMG when the loading rate is1×10?4s?1, while for Cu50Zr40Ti10?xNix(x=1?3, mole fraction, %) BMGs when the loading rate is1×10?2s?1. The plastic strain (εp), yielding strength (σy) and fracture strength (σf) of the studied Cu-based BMGs significantly depend on the aspect ratio and the loading rate. In addition, theσyof the studied Cu-based BMGs with an aspect ratio of 1:1 is close to the σfof those with the other aspect ratios when the loading rate is1×10?2s?1. The mechanism for the mechanical response to the loading rate and the aspect ratiowas also discussed.
参考文献
| [1] | Pan, Y.;Cao, H.;Ding, L.;Zhang, C.;Chang, Y.A..Novel bulkier copper-rich ternary metallic glasses from computational thermodynamics[J].Journal of Non-Crystalline Solids: A Journal Devoted to Oxide, Halide, Chalcogenide and Metallic Glasses, Amorphous Semiconductors, Non-Crystalline Films, Glass-Ceramics and Glassy Composites,201041/42(41/42):2168-2171. |
| [2] | W.K. An;A.H. Cai;X. Xiong.Effect of tension on corrosive and thermal properties of Cu_(60)Zr_(30)Ti_(10) metallic glass[J].Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics,2013:55-62. |
| [3] | An, W.K.;Cai, A.H.;Xiong, X.;Liu, Y.;Zhou, G.J.;Luo, Y.;Li, T.L.;Li, X.S..Tensile effect on corrosive and thermal properties of Cu_(55)Zr_(35)Ti_(10) metallic glass[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2013:442-449. |
| [4] | Cai, A.H.;Ding, D.W.;Xiong, X.;Liu, Y.;An, W.K.;Zhou, G.J.;Luo, Y.;Li, T.L.;Wang, H.;Wu, Y..Effect of mechanical tension on corrosive and thermal properties of Cu_(50)Zr_(40)Ti_(10) metallic glass[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2013:49-58. |
| [5] | Cai, A.H.;Xiong, X.;Liu, Y.;An, W.K.;Zhou, G.J.;Luo, Y.;Li, T.L.;Li, X.S..Structural and thermal sensitivity of Cu-Zr-Ti amorphous alloys to pressure[J].Journal of Non-Crystalline Solids: A Journal Devoted to Oxide, Halide, Chalcogenide and Metallic Glasses, Amorphous Semiconductors, Non-Crystalline Films, Glass-Ceramics and Glassy Composites,2013:1-6. |
| [6] | CAI AnHui;XIONG Xiang;LIU Yong;AN WeiKe;ZHOU GuoJun;LUO Yun;LI TieLin.Structural and thermal sensitivity of Cu-Zr-Ti amorphous alloys to tension[J].中国科学:物理学 力学 天文学(英文版),2013(8):1606-1610. |
| [7] | Z.P. Lu;H. Bei;C.T. Liu.Recent progress in quantifying glass-forming ability of bulk metallic glasses[J].Intermetallics,20075/6(5/6):618-624. |
| [8] | Jili Wu;Ye Pan;Xingzhou Li;Xianfei Wang.Designing plastic Cu-based bulk metallic glass via minor addition of nickel[J].Materials & design,2014May(May):175-179. |
| [9] | Jili Wu;Ye Pan;Xingzhou Li;Xianfei Wang.Composition design of plastic Cu-Zr-Ti-Ni bulk metallic glass: A liquidus perspective[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2014:16-20. |
| [10] | Wu, Jili;Pan, Ye;Li, Xingzhou;Wang, Xianfei.Microstructure evolution and mechanical properties of Nb-alloyed Cu-based bulk metallic glasses and composites[J].Materials & design,2015Jun.(Jun.):32-39. |
| [11] | Liu YH;Wang G;Wang RJ;Zhao DQ;Pan MX;Wang WH.Super plastic bulk metallic glasses at room temperature[J].Science,20075817(5817):1385-1388. |
| [12] | Ebrahim Karimi SAEIDABADI;Reza GHOLAMIPOUR;Behrouz GHASEMI.熔体渗透参数对钨丝增强(Cu50Zn43Al7)99.5Si0.5非晶复合材料显微组织和力学性能的影响[J].中国有色金属学报(英文版),2015(08):2624-2629. |
| [13] | C.Q. Chen;Y.T. Pei;J.T.M. De Hosson.Effects of size on the mechanical response of metallic glasses investigated through in situ TEM bending and compression experiments[J].Acta materialia,20101(1):189-200. |
| [14] | Y. Wu;H.X. Li;Z.Y. Liu.Interpreting size effects of bulk metallic glasses based on a size-independent critical energy density[J].Intermetallics,20101(1):157-160. |
| [15] | Weifeng Ma;Hongchao Kou;Jinshan Li.Effect of strain rate on compressive behavior of Ti-based bulk metallic glass at room temperature[J].Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics,20091/2(1/2):214-218. |
| [16] | Z. F. ZHANG;H. ZHANG;X. F. PAN.Effect of aspect ratio on the compressive deformation and fracture behaviour of Zr-based bulk metallic glass[J].Philosophical Magazine Letters,200510(10):513-521. |
| [17] | Jiang WH;Fan GJ;Liu F;Wang GY;Choo H;Liaw PK.Spatiotemporally inhomogeneous plastic flow of a bulk-metallic glass[J].International Journal of Plasticity,20081(1):1-16. |
| [18] | Min Song;Yaoqi Li;Yuehui He.Effect of strain rate on the compressive behaviour of a Zr_(56)Al_(10.9)Ni_(4.6)Cu_(27.8)Nb_(0.7) bulk metallic glass[J].Philosophical Magazine Letters,201010(10):763-770. |
| [19] | X.Q.Gao;W.H.Wang;H.Y.Bai.A Diagram for Glass Transition and Plastic Deformation in Model Metallic Glasses[J].材料科学技术(英文版),2014(6):546-550. |
| [20] | L.F. Liu;L.H. Dai;Y.L. Bai.Strain rate-dependent compressive deformation behavior of Nd-based bulk metallic glass[J].Intermetallics,20058(8):827-832. |
| [21] | Xue YF;Cai HN;Wang L;Wang FC;Zhang HF.Effect of loading rate on failure in Zr-based bulk metallic glass[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,20081/2(1/2):105-110. |
| [22] | T.C. Hufnagel;T. Jiao;Y. Li.Deformation and failure of Zr_(57)Ti_5Cu_(20)Ni_8Al_(10) bulk metallic glass under quasi-static and dynamic compression[J].Journal of Materials Research,20026(6):1441-1445. |
| [23] | Toshiji Mukai;T.G. Nieh;Yoshihito Kawamura.Effect of strain rate on compressive behavior of a Pd_(40)Ni_(40)P_(20) bulk metallic glass[J].Intermetallics,200211/12(11/12):1071-1077. |
| [24] | Bruck H.A.;Rosakis A.J..The dynamic compressive behavior of beryllium bearing bulk metallic glasses[J].Journal of Materials Research,19962(2):503-511. |
| [25] | Sergueeva AV;Mara NA;Kuntz JD;Branagan DJ;Mukherjee AK.Shear band formation and ductility of metallic glasses[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,20042(2):219-223. |
| [26] | Tariq, N.H.;Akhter, J.I.;Hasan, B.A..Effect of sample geometry on the deformation behavior of Zr-based bulk metallic glass[J].Journal of Materials Science,201022(22):6170-6173. |
| [27] | W.H. Jiang;G.J. Fan;H. Choo.Ductility of a Zr-based bulk-metallic glass with different specimen's geometries[J].Materials Letters,200629/30(29/30):3537-3540. |
| [28] | Q.P. Cao;J.W. Liu;K.J. Yang.Effect of pre-existing shear bands on the tensile mechanical properties of a bulk metallic glass[J].Acta materialia,20104(4):1276-1292. |
| [29] | Chen, S.H.;Chan, K.C.;Xia, L..Effect of stress gradient on the deformation behavior of a bulk metallic glass under uniaxial tension[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2013:262-265. |
| [30] | 吴宏;刘咏;李开洋;赵中伟.铸造效应引发的块体非晶合金压缩脆性[J].中国有色金属学报(英文版),2014(2):385-392. |
| [31] | Guoliang Chen;Xidong Hui;Shiwen Fan.Concept of chemical short range order domain and the glass forming ability in multicomponent liquid[J].Intermetallics,200211/12(11/12):1221-1232. |
| [32] | AN WeiKe;DING DaWei;CAI AnHui;ZHOU GuoJun;LUO Yun;LI JiangHong;PENG YongYi.Mechanism, condition and characteristics for the formation of the network structure in Zr-Al-Ni-Cu bulk metallic glasses[J].中国科学:物理学 力学 天文学(英文版),2015(6):103-108. |
| [33] | 蔡安辉;丁大伟;安伟科;周果君;罗云;李江鸿;彭勇宜.具有网络结构的Zr-Al-Ni-Cu块体金属玻璃的塑性和断裂模式转变[J].中国有色金属学报(英文版),2015(8):2617-2623. |
| [34] | H. S. Ko;J. Y. Chang.Effect of short-range order in liquid on the glass forming ability of Fe-Si-B alloy wires[J].Materials Letters,20046(6):1012-1016. |
| [35] | Miller MK.;Shen TD.;Schwarz RB..Atom probe studies of metallic glasses[J].Journal of Non-Crystalline Solids: A Journal Devoted to Oxide, Halide, Chalcogenide and Metallic Glasses, Amorphous Semiconductors, Non-Crystalline Films, Glass-Ceramics and Glassy Composites,20031/2(1/2):10-16. |
| [36] | Wei Hua Wang.The elastic properties, elastic models and elastic perspectives of metallic glasses[J].Progress in materials science,20123(3):487-656. |
| [37] | Ming Zhao;Mo Li.Local heating in shear banding of bulk metallic glasses[J].Scripta materialia,20116(6):493-496. |
| [38] | Lewandowski JJ;Greer AL.Temperature rise at shear bands in metallic glasses[J].Nature materials,20061(1):15-18. |
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%