An energetic approach to abrasive wear of a martensitic stainless steel

被引:9
作者
Pamuk, U [1 ]
Baydogan, M [1 ]
Nilüfer, B [1 ]
Çimenoglu, H [1 ]
机构
[1] Istanbul Tech Univ, Dept Met & Mat Sci Engn, TR-80626 Istanbul, Turkey
来源
SCRIPTA MATERIALIA | 2000年 / 42卷 / 09期
关键词
abrasion; aging; hardness; scratch;
D O I
10.1016/S1359-6462(00)00307-9
中图分类号
TB3 [工程材料学];
学科分类号
0805 ; 080502 ;
摘要
Hardness and scratch tests were performed to examine the abrasive wear behavior of martensitic stainless steel. Aging at 485°C for 1 h increased the abrasion resistance of 17-4 quality stainless steel about 50% with respect to as-received condition, by increasing specific energy of both penetration and grinding stages. However, the increment in the specific energy of penetration stage was much lower than that of grinding stage. In an abrasion process, grinding stage was more effective than penetration stage in determining the energy consumption rate and therefore the wear resistance of the investigated stainless steel.
引用
收藏
页码:881 / 885
页数:5
相关论文
共 50 条
[31]   The research on plasma nitriding of AISI410 martensitic stainless steel [J].
Tong, Xingsheng ;
Wang, Chen ;
Ye, Wei .
PROCEEDINGS OF THE 3RD INTERNATIONAL CONFERENCE ON MATERIAL, MECHANICAL AND MANUFACTURING ENGINEERING, 2015, 27 :116-119
[32]   Cavitation erosion of thermomechanically processed 13/4 martensitic stainless steel [J].
Kishor, Brij ;
Chaudhari, G. P. ;
Nath, S. K. .
WEAR, 2014, 319 (1-2) :150-159
[33]   Process limitation of ultrasonic burnishing for commercially available martensitic stainless steel [J].
Huuki, Juha ;
Ullah, Rizwan ;
Laakso, Sampsa .
30TH INTERNATIONAL CONFERENCE ON FLEXIBLE AUTOMATION AND INTELLIGENT MANUFACTURING (FAIM2021), 2020, 51 :885-889
[34]   A Study on the Microstructure, Tensile and Fatigue Properties of Martensitic Stainless Steel Plate [J].
Lee, Hyojoo ;
Anaman, Sam Yaw ;
Rho, Nam-Su ;
Sung, Si-Hyun ;
Sung, Hyun-Min ;
Lee, Sang-Yeob ;
Cho, Hoon-Hwe .
KOREAN JOURNAL OF METALS AND MATERIALS, 2023, 61 (11) :815-823
[35]   Multiple Influences of Molybdenum on the Precipitation Process in a Martensitic PH Stainless Steel [J].
Thuvander, Mattias ;
Andersson, Marcus ;
Stiller, Krystyna .
METALS, 2019, 9 (10)
[36]   Cavitation Wear of T91 Ferritic-Martensitic Steel [J].
H. Yu. Rostova ;
G. D. Tolstolutska ;
R. L. Vasilenko ;
I. V. Kolodiy ;
V. І. Kovalenko ;
V. G. Marinin ;
M. А. Tikhonovsky ;
O. S. Kuprin .
Materials Science, 2022, 58 :364-368
[37]   Cavitation Wear of T91 Ferritic-Martensitic Steel [J].
Rostova, H. Yu. ;
Tolstolutska, G. D. ;
Vasilenko, R. L. ;
Kolodiy, I. V. ;
Kovalenko, V. I. ;
Marinin, V. G. ;
Tikhonovsky, M. A. ;
Kuprin, O. S. .
MATERIALS SCIENCE, 2023, 58 (3) :364-368
[38]   Effect of plasma ion nitriding on hydrogen embrittlement and wear resistance of martensitic stainless steel for hydrogen valve core of fuel cell electric vehicles [J].
Shin, Dong-Ho ;
Hwang, Hyun-Kyu ;
Kim, Seong-Jong .
ENGINEERING FRACTURE MECHANICS, 2024, 306
[39]   Cylindrical Electrochemical Magnetic Abrasive Machining of AISI-304 Stainless Steel [J].
Judal, K. B. ;
Yadava, Vinod .
MATERIALS AND MANUFACTURING PROCESSES, 2013, 28 (04) :449-456
[40]   Reciprocating wear behaviour of TiC-stainless steel cermets [J].
Jin, Chenxin ;
Onuoha, Chukwuma C. ;
Farhat, Zoheir N. ;
Kipouros, Georges J. ;
Plucknett, K. P. .
TRIBOLOGY INTERNATIONAL, 2017, 105 :250-263
12345