| 大口径薄壁纯钛管数控热弯内外侧的塑性变形机制 |
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| 引用本文: | 张晓丽,杨合,李恒,张志勇,李龙.大口径薄壁纯钛管数控热弯内外侧的塑性变形机制[J].中国有色金属学会会刊,2014,24(10):3257-3264. |
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| 作者姓名: | 张晓丽 杨合 李恒 张志勇 李龙 |
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| 作者单位: | 西北工业大学 |
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| 基金项目: | Projects(50905144,51275415)supported by the National Natural Science Foundation of China;Project supported by the Program for New Century Excellent Talents in University,China;Project(B08040)supported by the Program of Introducing Talents of Discipline to Universities,China(“111”Project) |
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| 摘 要: | 为了发展大直径薄壁纯钛管数控加热弯曲技术,实验研究了大口径薄壁CP-3管材在不同温度下数控弯曲后的内外侧塑性变形机制。通过EBSD分析和维氏显微硬度测试方法,对数控弯曲温度293、423和573 K下弯管件试样弯曲外侧受拉区域以及弯曲内侧受压区域进行显微组织变化和维氏硬度分析。结果表明:1)在不同温度下数控弯曲变形后,弯管外侧塑性变形机制主要为滑移,孪生变形微弱,择优取向类似于初始管材的;弯管内侧塑性变形机制主要以{1 012}孪晶为主,滑移为辅助机制,且孪晶使管壁材料择优取向产生剧烈转变。2)维氏硬度的变化与塑性变形机制及织构有关。弯曲变形后,管材试样内外侧轴向与周向的维氏硬度值均显著得到提高,且管材试样内侧的维氏硬度值要明显高于外侧的,周向的维氏硬度值高于轴向的。
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| 关 键 词: | 大口径薄壁商业纯钛管 加热弯曲 织构 孪晶 塑性变形机制 |
| 收稿时间: | 12 October 2013 |
Warm bending mechanism of extrados and intrados of large diameter thin-walled CP-Ti tubes |
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| Xiao-li ZHANG,He YANG,Heng LI,Zhi-yong ZHANG,Long LI.Warm bending mechanism of extrados and intrados of large diameter thin-walled CP-Ti tubes[J].Transactions of Nonferrous Metals Society of China,2014,24(10):3257-3264. |
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| Authors: | Xiao-li ZHANG He YANG Heng LI Zhi-yong ZHANG Long LI |
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| Affiliation: | (State Key Laboratory of Solidification Processing, School of Materials Science and Engineering, Northwestern Polytechnical University, Xi'an 710072, China) |
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| Abstract: | In order to develop the warming bending technology of the large diameter thin-walled(LDTW) commercial pure titanium alloy CP-Ti tubes, the warm bending mechanism of the extrados and intrados of LDTW CP-Ti tubes was researched. By EBSD analysis and Vickers hardness test, the changes of microstructure and strength of the tubes at different bending temperatures of 293, 423 and 573 K, were analyzed. The results show: 1) The extrados of the bent tube deforms mainly by slip, along with few twinning, and the preferred orientation is similar to that of the initial tube; the intrados of the bent tube experiences compression deformation mainly by {1 012} tensile twinning, and the twinning makes the preferred orientation of wall materials change sharply. 2) The Vickers hardness values of both the extrados and intrados of the samples after bending increase greatly; the Vickers hardness values of the intrados are much higher than those of the extrados, and Vickers hardness values of the RD-TD planes are always higher than those of the RD-LD planes, which are related to the different deformation mechanisms. |
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| Keywords: | large diameter thin-walled CP-Ti bent tube warm bending texture twinning deformation mechanism |
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