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(吴帅，付航涛，连勇，等。一种新型热作模具钢的高温磨损 Chin J Mater Res,2017,31(1):32 性能研究.摩擦学学报，2016,36(1)：104) (李爽，吴晓春，黎欣欣，等.钼钨系高导热率热作模具钢高 [14]Yuan X Y,Zhao Y,Chen L Q.Effect of Cr content on high-tem- 温性能.材料研究学报，2017,31(1)：32)白植雄等: 两种热作模具钢的高温摩擦磨损性能 [4] Karbasian H, Tekkaya A E. A review on hot stamping. J Mater Process Technol, 2010, 210(15): 2103 [5] Stott F H, Glascott J, Wood G C. Models for the generation of ox鄄 ides during sliding wear. Proc R Soc London Ser A, 1985, 402 (1822): 167 [6] Li S, Chen S H, He X J, et al. A comparison of wear resistance of two types hot鄄work die steels at high temperature. Tribology, 2017, 37(1): 59 (李爽, 陈士浩, 何西娟, 等. 两种热作模具钢高温耐磨性对 比研究. 摩擦学学报, 2017, 37(1): 59) [7] Wang S Q, Wang L, Zhao Y T, et al. Mild鄄to鄄severe wear transi鄄 tion and transition region of oxidative wear in steels. Wear, 2013, 306(1鄄2): 311 [8] Hardell J, Hernandez S, Mozgovoy S, et al. Effect of oxide layers and near surface transformations on friction and wear during tool steel and boron steel interaction at high temperatures. Wear, 2015, 330鄄331: 223 [9] Anio覥ek K, Kupka M, Barylski A. Sliding wear resistance of oxide layers formed on a titanium surface during thermal oxidation. Wear, 2016, 356鄄357: 23 [10] Varga M, Rojacz H, Winkelmann H, et al. Wear reducing effects and temperature dependence of tribolayer formation in harsh environment. Tribol Int, 2013, 65: 190 [11] Stott F H. High鄄temperature sliding wear of metals. Tribol Int, 2002, 35(8): 489 [12] Ghiotti A, Sgarabotto F, Bruschi S. A novel approach to wear testing in hot stamping of high strength boron steel sheets. Wear, 2013, 302(1鄄2): 1319 [13] Wu S, Fu H T, Lian Y, et al. Investigation on high temperature wear behavior of a newly developed hot鄄work tool steel. Tribolo鄄 gy, 2016, 36(1): 104 (吴帅, 付航涛, 连勇, 等. 一种新型热作模具钢的高温磨损 性能研究. 摩擦学学报, 2016, 36(1): 104) [14] Yuan X Y, Zhao Y, Chen L Q. Effect of Cr content on high鄄tem鄄 perature oxidation behavior of high鄄manganese austenitic TWIP steel. J Northeast Univ Nat Sci, 2016, 37(2): 184 (袁晓云, 赵阳, 陈礼清. Cr 含量对高锰奥氏体 TWIP 钢高温 氧化行为的影响. 东北大学学报(自然科学版), 2016, 37 (2): 184) [15] Quinn T F J. The effect of “hot鄄spot冶 temperatures on the unlu鄄 bricated wear of steel. A S L E Trans, 1967, 10(2): 158 [16] Cui X H, Wang S Q, Jiang Q C, et al. High鄄temperature wear mechanism of cast hot鄄forging die steel 4Cr3Mo2NiV. Acta Metall Sin, 2005, 41(10): 1116 (崔向红, 王树奇, 姜启川, 等. 4Cr3Mo2NiV 铸造热锻模具 钢的高温磨损机理. 金属学报, 2005, 41(10): 1116) [17] Chen K M, Wang S Q, Yang Z R, et al. High temperature wear and oxide film of steels. Tribology, 2008, 28(5): 475 (陈康敏, 王树奇, 杨子润, 等. 钢的高温氧化磨损及氧化物 膜的研究. 摩擦学学报, 2008, 28(5): 475) [18] Han Y B, Xue X Y, Zhang T B, et al. Effects of hot compres鄄 sion on carbide precipitation behavior of Ni鄄鄄20Cr鄄鄄18W鄄鄄1Mo su鄄 peralloy. Trans Nonferrous Met Soc China, 2016, 26(11): 2883 [19] Wei M X, Wang F, Wang S Q, et al. Comparative research on the elevated鄄temperature wear resistance of a cast hot鄄working die steel. Mater Des, 2009, 30(9): 3608 [20] Zhang Y B, Luo H, Wang G F. The effect of the microstructure on the wear鄄resistance in the welding deposited metal. Key Eng Mater, 2007, 353鄄358: 766 [21] Oh H, Lee S, Jung J, et al. Correlation of microstructure with the wear resistance and fracture toughness of duocast materials composed of high鄄chromium white cast iron and low鄄chromium steel. Metall Mater Trans A, 2001, 32(3): 515 [22] Li S, Wu X C, Li X X, et al. High temperature performance of a Mo鄄鄄 W type hot work die steel of high thermal conductivity. Chin J Mater Res, 2017, 31(1): 32 (李爽, 吴晓春, 黎欣欣, 等. 钼钨系高导热率热作模具钢高 温性能. 材料研究学报, 2017, 31(1): 32) ·913·