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 ed hardy Suppression method of spray deposition 5A |
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Suppression method of spray deposition 5A06 aluminum alloy deformation and densification
Point 5 to point the direction, so the large deformation of 1 point. So in order to make the relative density distribution along the length of material. Wedge pressure the other side should start from the opposite direction, to billet the opposite direction along with the previous flow. IIl dioxin content playing Lan Time / s Figure 7-sided wedge pressure trace length of 5 points (a) relative density, (b) changes in the effective strain Fig. 7Lengthdirection5trackingpoints (a, relativedensity (b) equivalentstrainchangeusingdoublewedgepresses3 Conclusion (1) single-sided wedge pressure, the billet along the high to the performance decreased when using double-sided wedge pressure more uniform material properties, but the relative density of billet center relative to the upper and lower layers a surface is still relatively low, deformation is still hard to reach, still repeated cycles of multi-channel density and better ability to suppress only the same amount of high pressure available at the time to a higher relative density. (2) two-sided wedge pressure relative in the single wedge pressure, relative density after deformation more uniform in all directions along the organization line. Because double-sided wedge pressure wedge pressure equivalent to the coincidence of the two, so avoid using double-sided wedge pressure wedge pressure the problem is not through pressure. (3) two-sided wedge pressure, in order to make the relative density of material along the length distribution, the other side of wedge pressure should be started from the opposite direction. Let the opposite direction of stock along with the previous flow. References: ��lJ Chen of water first, Zhang Hui, Zeng Xiang, et al. spray deposition 5A06 Hot Deformation and Densification Laws IV. thermal processing technology, 2008,37 ( :18-21. [2�� Zhenhua. multi-layer spray deposition Technology and Application (No. l Edition) [M��. Changsha: Hunan University Press ,2003.1-9; 263. [3] XuQ, HayesRW, HuntWH, eto1.Mechanicalpropertiesandfracturebehavioroflayered6061/SICPcompositesproducedbysprayatomizationandCo-deposition [JJ.Acta.Mater. , 1999,47 (1) :43-53. ��4�� Yuanwu Hua, Chen Zhenhua. multi-layer spray deposition technology research and progress [J]. Materials Review,[link widoczny dla zalogowanych], 2000, (1): l7-21. [5] Zhan Meiyan , Wei-Jun Xia, Zhang, et al. FV0812 spray deposition of a heat-resistant extruded aluminum alloy hot compression deformation behavior of [J]. Hunan University (Natural Science), 2004,19 (2) :37-41 . [6�� Waring, Qin Xun Peng, Mao Huajie, et al. compressible sintered powder materials and yield criterion for plastic deformation [J]. Plasticity Engineering, 2003, lO (6) :62-62. [7�� Zhanmei Yan, Chen Zhenhua. jet deposition theory of rolling of porous materials [J]. Materials Research, 2004,18 (6) :661-667. [8�� Chen Gang, Liu Pengfei, Fan only river, and so on. large-scale spray deposition ring of wedge pressure densification process [ ,],[link widoczny dla zalogowanych],[,],[Cao Hai Bridge, Ji Wei,[link widoczny dla zalogowanych], et al. DEFORM finite element analysis system software and its application [J]. thermal processing technology, 2003, (4): 5l a 52. [12] Chen Suying, Zhang Kangsheng, HUAZHONG, et al. wedge SLI Department of Arts and loose parameters on the impact of the heart [J]. Forging Technology, 2006,31 (4) :38-40. [13�� Chen Shui-first,[link widoczny dla zalogowanych], Zhang Hui, Zeng Xiang, et al .5 A06 aluminum wedge pressure deformation and densification finite element analysis [J]. Forging Technology, 2008,[link widoczny dla zalogowanych], (3): 39.43. Tin \
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