摘要
本文介绍了JCC -B型金刚石磁化率分析仪的电气设计原理及采用的数据处理技术 。
出处
《金刚石与磨料磨具工程》
CAS
2002年第5期23-24,共2页
Diamond & Abrasives Engineering
参考文献3
-
1傅凤理,彭振宇,张骏翔,包华.人造金刚石磁化率测定及磁化率测定仪[J].金刚石与磨料磨具工程,1997,17(4):30-33. 被引量:2
-
2谢处方 饶克瑾.电磁场与电磁波[M].人民教育出版社,1978..
-
3耿直 彭振宇 等.人造金刚石磁化率检测方法的研究[J].中国超硬材料特刊,2001,3.
同被引文献17
-
1姜伟,鲁伟员,杨缤维,姚勇,张书霞,寇自力.浓缩法分析金刚石内的杂质元素[J].超硬材料工程,2006,18(3):6-11. 被引量:4
-
2贾建平,徐炜,郑颖,孙宇红.TC600氧氮联合测定仪的测试原理及应用[J].兵器材料科学与工程,2005,28(4):71-73. 被引量:9
-
3CLARK C D , COLLINS A T , WOODS G S, Absorption and luminescence spectroscopy [M]. The Properties of Natural and Synthetic Diamond, London: Academic Press, 1992: 35-79.
-
4EVANS Trevor . Aggregation of nitrogen in diamond[M]. The Properties of Natural and Synthetic Diamond, London Academic Press, 1992:259 -290.
-
5KIFLAWI I. MAYER A E , SPEAR P M , et al. Infrared ab- sorption by the single nitrogen and A defect centers in diamond [J]. Philosophical Magazine Part B, 1994, 9(6) : 1141-1147.
-
6BOYD S R , KIFLAWI I , WOODS G S. Infrared absorption by the B nitrogen aggregate in diamond [J]. Philosophical Magazine Part B, 1995, 72(3):351-361.
-
7CHRENKO R M , TUFT R E , STRONG H M . Transforma- tion of the state of nitrogen in diamond [J]. Nature, I977, 270 (10): 141 144.
-
8COLLINS A T , KANDA H , KITAWAKO H . Color changes produced in natural brown diamonds by high pressure, high-tern perature treatment [J]. Diamond and Related Materials, 2000, 9 (2): 113-122.
-
9WAKATSUK M, HAYAKAWA S, AOKI S, et aI. New dia mond science and technology [C]. MRS International Conference Proceedings, 1992: 143.
-
10KANDA Hiaso, OHSAWA Toshlkzu, YAMAOKA Shinobu. Differ- nces in morphology and impurity content of synthetic diamond grown from molten nickel [J]. Journal of Crystal Growth, 1990, 99:1183 -1187.
-
1许建平,刘春华,李雪松.控制图在复极电解槽控制中的应用[J].江汉石油科技,2004,14(3):64-67.
-
2王成光,苏宏业,褚健.石化企业大型实时数据库系统的结构设计[J].化工自动化及仪表,2002,29(5):7-11. 被引量:8
-
3许建平,刘春华,李雪松.控制图在复极电解槽控制中的应用[J].中国氯碱,2003(11):12-15.
-
4GPS智能巡检输气管道[J].测绘信息与工程,2006,31(6):5-5.
-
5李剑飞.地球物理勘探对石油开采的指导性[J].中国石油和化工标准与质量,2012,32(9):121-121.
