研究变形量对挤压态钨合金动态力学行为的影响及钨合金绝热剪切带内的微观开裂行为.结果表明,加载方向垂直于纤维取向时,随变形量由0增加至40.8%,挤压态钨合金绝热剪切敏感性显著增大;由对钨合金绝热剪切带内微观组织的SEM观察可知,靠近绝热剪切带中心处出现在微裂纹且微裂纹萌生于W-M界面及W颗粒内部;进一步的TEM观察可知,剪切带内W-M界面处存在大量的位错塞积,W颗粒中则出现亚晶内部及沿亚晶界扩展的微裂纹.
The influence of extrusion deformation ratio on the dynamic mechanical behavior in a tungsten heavy alloy was investigated under uniaxial compression with loading direction perpendicular to the fiber orientation. With extrusion deformation ratio increasing from O to 40.8%, the sensitivity of adiabatic shear banding shows an obviously rising tendency. Mierocracks could be seen near the centre of the shear band and initiate at the interface of ttmgsten-matrix as well as the interior of tungsten. Moreover,the observation by the transmission electron microscopy reveals the dislocation pile-ups at the interface of tungsten-matrix and the presence of a microcrack propagating along the boundary and inside of the subgrain in the interior of tungsten within the shear band.
参考文献
| [1] | Bai Y Dodd B.Adiabatic Shear Localization-Occurrence,Theories and Application[M].Oxford:pergamon Press,1992 |
| [2] | Wright T W.The Physics and Mathematics of Adiabatic Shear Bands[M].Cambridge:Cambridge University Press,2002 |
| [3] | Meyers M A.Dynamic Behavior of Materials[M].New York:John Wiley and Sons,Inc,1994 |
| [4] | Xu Y B;Zhang J H;Bai Y L et al.[J].Metall TramA,2008,39A:811. |
| [5] | Magness L S;KapoorD;Dowding R .[J].Materials and Manufacturing Processes,1995,10:531. |
| [6] | Cai W D;Li Y;Dowding R et al.[J].Reviews In Particulate Materials,1995,3:71. |
| [7] | Kim D K;Lee S;Noh J W .[J].Materials Science and Engineering A:Structural Materials Properties Microstructure and Processing,1998,247:285. |
| [8] | wu G C;You Q;Wang D .[J].Int J Refract Mater,1999,17:299. |
| [9] | Ekbom L;Antonsson T .[J].Int J Refract Mater,2002,20:375. |
| [10] | Sanghyan P;Kirn D K;Lee S .[J].Materials Science and Engineering A:Structural Materials Properties Microstructure and Processing,2003,363:179. |
| [11] | Randall M G;Olevsky E .[J].Int J Refract Mater,2005,23:77. |
| [12] | Liu Jinxu;Li Shukui;Zhou Xiaoqing et al.[J].Scripta Matefl,2008,59:1271. |
| [13] | Rogers H C .[J].Annual Review of Materials Science,1979,9:283. |
| [14] | Me-Bar Y;Shechtman D .[J].Materials Science and Engineering,1983,58:181. |
| [15] | Affouard J L;Dormeval R;Stelly M.[A].Bristol:Institute of Physics,1984:533. |
| [16] | Xu Y B;Wang Z G;Huang X L et al.[J].Materials Science and Engineering A:Structural Materials Properties Microstructure and Processing,1989,114:81. |
| [17] | Xu Y B;Bai Y L;Xue Q et al.[J].Acta Materialia,1996,44:1917. |
| [18] | Zhou M.;Ravichandran G.;Rosakis AJ. .DYNAMICALLY PROPAGATING SHEAR BANDS IN IMPACT-LOADED PRENOTCHED PLATES .1. EXPERIMENTAL INVESTIGATIONS OF TEMPERATURE SIGNATURES AND PROPAGATION SPEED[J].Journal of the Mechanics and Physics of Solids,1996(6):981-1006. |
| [19] | Guduru P R;Rosakis A J;Ravichandran G .[J].Mechanics of Materi als,2001,33:371. |
| [20] | Xu Y B;Zhong W L;Chert Y J et al.[J].Mater Sei Eng A,2001,299:287. |
| [21] | Zhang Zhaohui;Wang Fuehi;Li Shukui et al.[J].Materials Science and Engineering A:Structural Materials Properties Microstructure and Processing,2006,435:632. |
| [22] | Liu Jinxu;Li Shukui;Fan Airing et al.[J].Mater Sxi Eng A,2008,487:235. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%