利用高温氧化和氢化等方法模拟在聚变堆环境中多种V-Cr-Ti-Al-Si合金因吸O和H而造成的脆性,并利用国外测试的V合金中子辐照后性能数据,分析了V合金的中子辐照脆性.V合金在450℃~600℃惰性气体中的高温氧化符合抛物线规律,除V4Ti3Al合金外,O含量升高使合金的延性降低.H、O联合作用下的V合金表现出了很强的氢脆敏感性.对含O量为800μg/g的V4Cr4Ti合金,当H含量超过50μg/g后表现出明显的拉伸脆性.中子辐照使V合金的屈服强度升高,而塑性降低,特别是低于400℃的低温中子辐照,V合金表现出很强的辐照致脆倾向.研究中发现V合金吸氢、中子辐照和形变后的强化具有等强的降低合金塑性的作用,为此建议采用细晶强化来解决V合金的氢脆和辐照致脆问题.
参考文献
| [1] | Taylor NP, Forty CBA, Petti DA, et al.J. Nucl. Mater., 2000,283~ 287: 28 |
| [2] | Bloom EE, Conn RW, Davis JW, et al.J. Nucl. Mater., 1984,122/123:17 |
| [3] | Satou M, Abe K, Kayano H. J. Nucl. Mater., 1991, 179~181:757 |
| [4] | Rowecliffe AF, Zinkle SJ, Hoelzer DT. J. Nucl. Mater., 2000,283~287: 508 |
| [5] | Matsui HIDEKI. J. Plasma and Fusion Research, 1994, 70(8):807 |
| [6] | Loomis BA, Hull AB, Smith DL. J. Nucl. Mater., 1991, 179~181:148 |
| [7] | Smith DL, Chung HM, Matsui H, et al. Fusion Engineering &Design, 1998, 41:7 |
| [8] | Loomis BA, Nowicki LJ, Smith DL. Fusion Materials Semian-nual Progress, 1993, DOE/ER - 0313/15:219 |
| [9] | Chung HM, Loomis BA, Nowicki L, et al. Fusion MaterialsSemiannual Progress, 1993, DOE/ER - 0313/15: 223 |
| [10] | Matsui H, Tanno M, Gazda J, et al. Fusion Materials Semian-nual Progress, 1993, DOE/ER - 0313/15:240 |
| [11] | Chung HM, Gazda J, Smith DL. Fusion Materials SemiannualProgress, 1998, DOE/ER - 0313/24:49 |
| [12] | Loomis BA, Smith DL, Garner FA. J. Nucl. Mater., 1991, 179~181:771 |
| [13] | Zinkle SJ, Snead LL, Rowcliffe AF, et al. Fusion MaterialsSemiannual Progress, 1998, DOE/ER - 0313/24: 33 |
| [14] | Natesan K, Uz M. Fusion Engineering & Design, 2000, 51/52:145 |
| [15] | Natesan K, Uz M. Fusion Materials Semiannual Progress,1998, DOE/ER - 0313/24: 73 |
| [16] | Fujiwara M, Natesan K. Fusion Materials SemiannualProgress, 1999, DOE/ER - 0313/27: 45 |
| [17] | Kurtz RJ, Abe K, Chernov VM, et al. J. Nucl. Mater., 2000,283~287: 70 |
| [18] | Natesan K, Soppet WK, Uz M. J. Nucl. Mater., 1998, 258~263:1476 |
| [19] | DiStefano JR, Pint BA, DeVan JH, et al. J. Nucl. Mater.,2000, 283~287: 841 |
| [20] | Chitwood LD, Rohrig DH. Fusion Materials SemiannualProgress, 1998, DOE/ER - 0313/24: 61 |
| [21] | DiStefano JR, DeVan JH, Roehrig HD, et al. J. Nucl. Mater.,1999, 273:102 |
| [22] | Tsai H, Bray TS, Matsui H, et al. J. Nucl. Mater., 2000, 283~287: 362 |
| [23] | Hamilton ML, Toloczko MB. J. Nucl. Mater., 2000, 283~287: 488 |
| [24] | Gazda J, Meshii M, Tsai H. Fusion Materials SemiannualProgress, 1998, DOE/ER - 0313/24: 20 |
| [25] | Satou M, Chuto T, Abe K. J. Nucl. Mater., 2000,283~287:367 |
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%