Simple non-destructive technique to detect micropipes in silicon carbide

被引:0
|
作者
Morrison, D.J. [1 ]
Keir, A. [2 ]
Preston, I.H. [2 ]
Hilton, K.P. [2 ]
Uren, M.J. [2 ]
Johnson, C.M. [1 ]
机构
[1] Dept. of Elec. and Electron. Eng., University of Newcastle, Newcastle NE1 7RU, United Kingdom
[2] Def. Evaluation and Research Agency, Great Malvern, Worcs. WR14 3PS, United Kingdom
来源
Materials Science Forum | 2001年 / 353-356卷
关键词
Anodes - Crystal defects - Electric potential - Electrolysis - Nondestructive examination - Nucleation - Optical microscopy - Water - X ray analysis;
D O I
暂无
中图分类号
学科分类号
摘要
An initial investigation has shown that the electrolysis of water can occur preferentially at macroscopic defects, including micropipes, where a silicon carbide wafer is used as the anode. It is proposed that observing the location of the resulting streams of bubbles, nucleated at the defects, would form the basis for a simple, non-destructive qualification test of SiC wafers.
引用
收藏
页码:303 / 306
相关论文
共 50 条
  • [1] A simple non-destructive technique to detect micropipes in silicon carbide
    Morrison, DJ
    Keir, A
    Preston, IH
    Hilton, KP
    Uren, MJ
    Johnson, CM
    SILICON CARBIDE AND RELATED MATERIALS, ECSCRM2000, 2001, 353-356 : 303 - 306
  • [2] Non-destructive detection of sub-micrometer-sized micropipes in silicon carbide using mirror electron microscope
    Kobayashi, Keisuke
    Mori, Yuki
    Konishi, Kumiko
    Hasegawa, Masaki
    Kobayashi, Kenji
    Shima, Akio
    JOURNAL OF APPLIED PHYSICS, 2023, 134 (19)
  • [3] Evaluation of the quality of commercial silicon carbide wafers by an optical non-destructive inspection technique
    Hatakeyama, T.
    Ichinoseki, K.
    Fukuda, K.
    Higuchi, N.
    Arai, K.
    JOURNAL OF CRYSTAL GROWTH, 2008, 310 (05) : 988 - 992
  • [4] Micropipes in silicon carbide crystals
    Gutkin, Mikhail Yu.
    Sheinerman, Alexander G.
    Argunova, Tatiana S.
    PHYSICA STATUS SOLIDI C - CURRENT TOPICS IN SOLID STATE PHYSICS, VOL 6, NO 8, 2009, 6 (08): : 1942 - +
  • [5] IMPULSE RESPONSE TECHNIQUE- A VALUABLE NON-DESTRUCTIVE METHOD TO DETECT FLAWS
    Limaye, Hemant S.
    PROCEEDINGS OF THE ASME POWER CONFERENCE, 2013, VOL 2, 2014,
  • [6] Fabrication of silicon carbide reinforced aluminum matrix nanocomposites and characterization of its mechanical properties using non-destructive technique
    El-Daly, A.A.
    Abdelhameed, M.
    Hashish, M.
    Daoush, Walid M.
    Materials Science and Engineering: A, 2013, 559 : 384 - 393
  • [7] Fabrication of silicon carbide reinforced aluminum matrix nanocomposites and characterization of its mechanical properties using non-destructive technique
    El-Daly, A. A.
    Abdelhameed, M.
    Hashish, M.
    Daoush, Walid M.
    MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING, 2013, 559 : 384 - 393
  • [8] Non-destructive methods to detect decay in trees
    Kaestner, A
    Niemz, P
    WOOD RESEARCH, 2004, 49 (02): : 17 - 28
  • [9] The character of micropipes in silicon carbide crystals
    Vetter, WM
    Dudley, M
    PHILOSOPHICAL MAGAZINE, 2006, 86 (09) : 1209 - 1225
  • [10] Micropipes migration mechanisms in silicon carbide
    Avrov, DD
    Bakin, AS
    Dorozhkin, SI
    SILICON CARBIDE AND RELATED MATERIALS 1995, 1996, 142 : 73 - 76
12345