Microstructure and deformation mechanism of Ag/Fe nanocrystalline alloy

被引:0
|
作者
Ichikawa, Satoshi [1 ]
Ichinose, Hideki [1 ]
Ito, Kunio [2 ]
机构
[1] Dept. of Advanced Material Science, Graduate School of Frontier Sciences, University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-0033, Japan
[2] College of Industrial Technologies, Nihon University, 1-2-1 Izumi-cho, Narasino 275-8575, Japan
来源
| 2000年 / Funtai Funmatsu Yakin Kyokai, Kyoto, Japan卷 / 47期
关键词
Crystal microstructure - Deformation - Grain size and shape - Hardness - Nanostructured materials - Transmission electron microscopy - X ray crystallography;
D O I
10.2497/jjspm.47.412
中图分类号
学科分类号
摘要
Nanocrystalline alloys were prepared by the inert-gas condensation and compaction method and were rolled. The deformed nanocrystalline alloys were examined by TEM and XRD in order to deduce the deformation mechanism. Tangled dislocations were not found in the grain of the deformed nanocrystalline Ag and Ag/Fe alloy by TEM. XRD measurements indicated that a normal preferred orientation of rolling was slightly developed in the Ag/Fe alloy but not in the Ag at all, even though the initial grain size was found to be smaller in the alloy than in the single component material. The grain growth occurred more or less by deformation. Hardness was not increased by deformation in the both materials. It is shown that the dominant deformation, especially in the single component material, is attributed to grain boundary sliding caused by grain boundary diffusion.
引用
收藏
相关论文
共 50 条
  • [21] Microstructure Evolution and Softening Mechanism During Hot Deformation of Cu–0.19Cr–0.1Ag Alloy
    Zhiyong Li
    Yanfeng Cao
    Chengcong Huang
    Liang Qi
    Hongjin Zhao
    Qiqi Hao
    Transactions of the Indian Institute of Metals, 2019, 72 : 1043 - 1051
  • [22] Bimodal microstructure and deformation of cryomilled bulk nanocrystalline Al-7.5Mg alloy
    Lee, Z
    Witkin, DB
    Radmilovic, V
    Lavernia, EJ
    Nutt, SR
    MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING, 2005, 410 : 462 - 467
  • [23] Mapping the hot deformation microstructure of Ni-30Fe alloy
    Beladi, H
    Hodgson, PD
    Barnett, MR
    ISIJ INTERNATIONAL, 2005, 45 (12) : 1893 - 1896
  • [24] Microstructure modifications by tensile deformation in Ti-Ni-Fe alloy
    Nishida, M
    Tanaka, K
    Li, S
    Kohshima, M
    Miura, S
    Asai, M
    JOURNAL DE PHYSIQUE IV, 2003, 112 : 803 - 806
  • [25] Preparation and microstructure of nanocrystalline Fe-Ni-Mo alloy with low Mo and high Fe content
    Luo, Bei-Ping
    Gong, Zhu-Qing
    Ren, Bi-Ye
    Yang, Yu-Fang
    Chen, Meng-Jun
    Zhongnan Daxue Xuebao (Ziran Kexue Ban)/Journal of Central South University (Science and Technology), 2006, 37 (04): : 692 - 697
  • [26] Mechanism of nanocrystalline microstructure formation in amorphous Fe-Nb-B alloys
    Hirata, Akihiko
    Hirotsu, Yoshihiko
    Matsubara, Eiichiro
    Ohkubo, Tadakatsu
    Hono, Kazuhiro
    PHYSICAL REVIEW B, 2006, 74 (18):
  • [27] Dendritic Ag-Fe nanocrystalline alloy synthesized by pulsed electrodeposition and its characterization
    Santhi, Kalavathy
    Revathy, T. A.
    Narayanan, V.
    Stephen, A.
    APPLIED SURFACE SCIENCE, 2014, 316 : 491 - 496
  • [28] Deformation mechanisms in a nanocrystalline vitroperm alloy
    Sergueeva, AV
    Mara, NA
    Mukherjee, AK
    REVIEWS ON ADVANCED MATERIALS SCIENCE, 2004, 7 (02) : 67 - 74
  • [29] Deformation Mechanism and Microstructure Control of High Strength Metastable β Titanium Alloy
    Li Jinshan
    Tang Bin
    Fan Jiangkun
    Wang Chuanyun
    Hua Ke
    Zhang Mengqi
    Dai Jinhua
    Kou Hongchao
    ACTA METALLURGICA SINICA, 2021, 57 (11) : 1438 - 1454
  • [30] Deformation Mechanism and Microstructure Control of High Strength Metastable β Titanium Alloy
    Li, Jinshan
    Tang, Bin
    Fan, Jiangkun
    Wang, Chuanyun
    Hua, Ke
    Zhang, Mengqi
    Dai, Jinhua
    Kou, Hongchao
    Jinshu Xuebao/Acta Metallurgica Sinica, 2021, 57 (11): : 1438 - 1454
12345