Wear behavior and nano-structure of surface layers of Hadfield steel under impact loading

被引:0
|
作者
许云华
陈瑜眉
朱金华
机构
[1] China
[2] China Institute of Wear Resistance Materials
[3] State Key Laboratory for Mechanical Behavior of Materials
[4] Xi’an 710055
[5] Xi’an Jiaotong University
[6] Xi’an University of Architecture and Technology
[7] Xi’an710049
来源
ProgressinNaturalScience | 2001年 / 06期
基金
中国国家自然科学基金;
关键词
Hadfield steel; impact wear; nano-sized grains; amorphous structure;
D O I
暂无
中图分类号
TG174 [腐蚀的控制与防护];
学科分类号
摘要
Under high energy impact contact loading, a turning on the weight loss-impact cycle ( WL-N) curve has been found, which results from the formation of nano-sized grains embedded in amorphous in the surface layers of Hadfield steel. As the impact energy increases, the wear rate, dWL/dN, first increases then decreases. The nano-structure due to the accumulation of plastic deformation is composed of nano-sized grains spanning 10 - 50 atoms and amorphous structures.
引用
收藏
页码:49 / 55
页数:7
相关论文
共 50 条
  • [21] On the wear behavior of surface clad layers under high temperature
    Aoh, JN
    Jeng, YR
    Chu, EL
    Wu, LT
    WEAR, 1999, 225 : 1114 - 1122
  • [22] Optical functionalities of surface nano-structure and their applications
    Kikuta, Hisao
    Seimitsu Kogaku Kaishi, 2008, 8 (781-784): : 781 - 784
  • [23] The Deformation, Strain Hardening, and Wear Behavior of Chromium-Alloyed Hadfield Steel in Abrasive and Impact Conditions
    Lindroos, Matti
    Apostol, Marian
    Heino, Vuokko
    Valtonen, Kati
    Laukkanen, Anssi
    Holmberg, Kenneth
    Kuokkala, Veli-Tapani
    TRIBOLOGY LETTERS, 2015, 57 (03)
  • [24] The Deformation, Strain Hardening, and Wear Behavior of Chromium-Alloyed Hadfield Steel in Abrasive and Impact Conditions
    Matti Lindroos
    Marian Apostol
    Vuokko Heino
    Kati Valtonen
    Anssi Laukkanen
    Kenneth Holmberg
    Veli-Tapani Kuokkala
    Tribology Letters, 2015, 57
  • [25] CORRELATION BETWEEN BLASTING WEAR RESISTANCE AND IMPACT TEST ON HADFIELD STEEL
    Zdansky, Ondrej
    Kriz, Antonin
    Simecek, Jiri
    METAL 2017: 26TH INTERNATIONAL CONFERENCE ON METALLURGY AND MATERIALS, 2017, : 629 - 634
  • [26] Surface failure behavior of 70Mn martensite steel under abrasive impact wear
    Peng, Shi-guang
    Song, Ren-bo
    Sun, Ting
    Yang, Fu-qiang
    Deng, Peng
    Wu, Chun-jing
    WEAR, 2016, 362 : 129 - 134
  • [27] Quasi-nano wear mechanism under repeated impact contact loading
    ZHU JinHua1
    2 Xi’an Research Institute of High-tech
    3 School of Materials Science and Engineering
    4 School of Materials Science and Engineering
    Science China(Technological Sciences), 2010, (06) : 1583 - 1589
  • [28] Quasi-nano wear mechanism under repeated impact contact loading
    JinHua Zhu
    XiangHong Ren
    JianJun Zhang
    YunHua Xu
    ZhengXin Lu
    Science China Technological Sciences, 2010, 53 : 1583 - 1589
  • [29] Quasi-nano wear mechanism under repeated impact contact loading
    ZHU JinHuaREN XiangHongZHANG JianJunXU YunHua LU ZhengXin State Key Laboratory for Mechanical Behavior of MaterialsXian Jiaotong UniversityXian China Xian Research Institute of HightechXian China School of Materials Science and EngineeringXian University of Architecture and TechnologyXian China School of Materials Science and EngineeringXian University of TechnologyXian China
    Science China(Technological Sciences), 2010, 53 (06) : 1583 - 1589
  • [30] Quasi-nano wear mechanism under repeated impact contact loading
    Zhu JinHua
    Ren XiangHong
    Zhang JianJun
    Xu YunHua
    Lu ZhengXin
    SCIENCE CHINA-TECHNOLOGICAL SCIENCES, 2010, 53 (06) : 1583 - 1589
12345