Elevated-temperature wear tests under atmospheric conditions at 400 ℃ were performed for a hot working die steel H21 on a pin-on-disk wear tester. The phase and morphology of worn surfaces were examined using XRD and SEM, and the relation of wear resistance to tempered microstructures was studied for H21 steel. XRD patterns exhibit that oxidative wear is a predominated wear mechanism with Fe3O4 and Fe2O3 on worn surfaces. It is found that with increasing normal load, obvious plastic deformation of substrate appears on worn surfaces. Microstructures start to affect apparently wear resistance of the steel with an increase of load. Under loads of 50--100 N, wear losses of steel retain low values and relatively approach for steels with various microstructures. As loads are increased to 150--200 N, wear losses of steel start to increase obviously and present apparent difference for steel with various microstructures. Wear resistance is found to increase in the sequence as follows., tempered sorbite, tempered martensite, tempered troostite without secondary hardening and tempered troostite with secondary hardening or upcoming one. Higher strength and microstructural stability are required for steels with excellent wear resistance.
参考文献
| [1] | I. A. Inman;P. K. Datta;H. L. Du;J. S. Burnell-Gray;S. Pierzgalski;Q. Luo .Studies of high temperature sliding wear of metallic dissimilar interfaces[J].Tribology International,2005(9):812-823. |
| [2] | Stott F H;Glascott J;Wood G C .Factors Affecting the Pro- gressive Development of Wear-Protective Oxides on Iron-Base Alloys During Sliding at Elevated Temperatures[J].Wear,1984,97(01):93. |
| [3] | Tu J P;Jie X H;Mao Z Y et al.The Effect of Temperature on the Unlubricated Sliding Wear of 5 CrNiMo Steel Against 40 MnS Steel in the Range 400-600 ℃[J].Tribology International,1998,31(07):347. |
| [4] | Barrau O;Boher C;Gras R et al.Analysis of the Friction and Wear Behavior of Hot Work Tool Steel for Forging[J].Wear,2003,255(7/8/9/10/11/12):1444. |
| [5] | G. A. Fontalvo;C. Mitterer .The effect of oxide-forming alloying elements on the high temperature wear of a hot work steel[J].Wear: an International Journal on the Science and Technology of Friction, Lubrication and Wear,2005(10):1491-1499. |
| [6] | Luong I.H S;Heijkoop T .The Influence of Scale on Friction in Hot Metal Working[J].Wear,1981,71(01):93. |
| [7] | WANG You;LEI Ting-quan .Wear Behavior of Steel 1080 With Different Microstruetures During Dry Sliding[J].Wear,1996,194(1/2):44. |
| [8] | Yong Wang;Tingquan Lei;Jiajun Liu .Tribo-metallographic behavior of high carbon steels in dry sliding II. microstructure and wear[J].Wear: an International Journal on the Science and Technology of Friction, Lubrication and Wear,1999(1):12-19. |
| [9] | Kalousek J;Fegredo K M;Laufer E E .The Wear Resistance and Worn Metallography of Pearlite,Bainite and Tempered Martensite Rail Steel Microstructures of High Hardness[J].Wear,1985,105(03):199. |
| [10] | Etsuo M;Norihiko H;Hiroki E et al.Research on the Wear Characteristics of Hypereutectoid Steel[J].Wear,1997,205(1/2):186. |
| [11] | Y.C. Liu;J.M. Schissler;T.G. Mathia .The influence of surface oxidation on the wear resistance of cast iron[J].Tribology International,1995(7):433-438. |
| [12] | Vardavoulias M .The Role of Hard Second Phases in the Mild Oxidational Wear Mechanism of High Speed Steel Based Ma- terials[J].Wear,1994,173(1/2):105. |
| [13] | Wang Y;Lei T Q;Gao C Q .Influence of Isothermal Harden- ing on the Sliding Wear Behaviour of 52100 Bearing Steel[J].Tribology International,1990,23(01):47. |
| [14] | LUO Hong;LIU Jia jun;ZHU Bao-liang .The Behavior of Block Like Residual Austenite of 52100 Steel in Sliding Wear[J].Wear,1994,174(1/2):57. |
| [15] | LI Chuan-gui;ZHOU Qing de;SONG Guang-shun et al.In- fluence of Carbon Content of Martensitic Matrix and Retained Austenite on Wear of Martensitic Ductile Iron[J].Wear,1993,162 164(Part 1):75. |
| [16] | WANG Dao-yuan;SHU De-lin;GUO Xin cheng .Effect of Mierostrueture and Properties on the High Temperature Wear Characteristics of 3Cr2W8V(H21)Steel[J].Wear,1987,119(01):101. |
| [17] | Cui X H;Wang S Q;Wang F et al.Research on Oxidation Wear Mechanism of the Cast Steels[J].Wear,2008,265(3/ 4):468. |
| [18] | Sullivan J L;Quinn T F J;Rowson D M .Developments in the Oxidational Theory of Mild Wear[J].Tribology International,1980,13(04):153. |
| [19] | Quinn T F J .Oxidational Wear Modelling Part Ⅲ The Effects of Speed and Elevated Temperatures[J].Wear,1998,216(02):262. |
| [20] | Wilson J E;Stott F H;Wood G C .The Development of Wear-Protective Oxides and Their Influence on Sliding Fric- tion[J].Proceedings of the Royal Society of London Series A:Mathematical,Physical and Engineering Sciences,1980,369(04):557. |
| [21] | So H;Yu D S;Chuang C Y .Formation and Wear Mechanism of Tribo-Oxides and the Regime of Oxidational Wear of Steel[J].Wear,2002,253(9/10):1004. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%