研究了不同成分经相同工艺制成的钛基烧结体非蒸散型吸气剂的性能. 测试了钛基吸气剂在3种激活工艺下的室温吸氢性能, 并将它们与传统同类型高温激活Zr-C吸气剂的室温吸氢性能作了对比. 同时对钛基吸气剂进行了形貌观察、孔隙度测试和强度测试. 结果表明, 这种新型的钛基吸气剂在低温激活时的室温吸氢性能优于高温激活的传统Zr-C吸气剂, 随着激活温度的升高, 新型吸气剂的性能更好. 此外, 新型吸气剂抗振动性能很好, 解决了传统吸气剂的掉粉问题.
参考文献
| [1] | Boffito C;Ferrario B;Della Porta P et al.A nonevaporable low temperature activatable getter material[J].Journal of Vacuum Science and Technology,1981,18(03):1117. |
| [2] | 万玉金.吸气剂[M].南京:江苏科学技术出版社,1983:63. |
| [3] | Young Joon Yoon;Keun Wook Kim;Hong Koo Baik;Serk-Won Jang;Sung-Man Lee .Effects of catalytic surface layer on Zr-based alloy getters for hydrogen absorption[J].Thin Solid Films: An International Journal on the Science and Technology of Thin and Thick Films,1999(1/2):138-142. |
| [4] | Barosi A;Giorgi T A .A non-evaporable getter for low temperatures[J].Vacuum,1973,23(01):15. |
| [5] | Andrea Conte;Sergio Carella .Process for producing high porosity non-evaporable getter materials and materials thus obtained[P].US 5879583,1999. |
| [6] | Benvenuti C;Cazeneuve J M;Chiggiato P et al.A novel route to extreme vacua:the non-evaporable getter thin film coatings[J].Vacuum,1999,53:219. |
| [7] | Spasskova N I;Ukolov S I .Hydrogen sorption by nonevaporable getters based on Ti and Zr[J].Vacuum,1993,44(5-7):737. |
| [8] | Boyarina;Maya F;Vladimir G et al.Non-evaporable getter[P].US 4428856,1984. |
| [9] | 赵越,郑华,刘实,杨锐,王隆保.Ti-Mo合金的结构及吸放氢性能研究[J].金属学报,2003(01):89-93. |
| [10] | Spasskova N I;Ukolov S I .Hydrogen sorption by nonevaporable getters based on Ti and Zr[J].Wacuum,1993,44(5-7):737. |
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