傅丽华等：C,C,/Ni,A1复合材料耐磨性提高的机制分析 ·123· eal properties of NiAl-based alloys with Cr carbides dispersion. terization of Ni-Al-CrC2 coating.Key Eng Mater,2008,373- Mater Sci Forum,2007,561-565:439 374:15 [6]Goldenstein H,Silva Y N,Yoshimura H N.Designing a new fam- [13]Zhu S Y.Bi Q L,Yang J,et al.Influence of Cr content on tri- ily of high temperature wear resistant alloys based on NiAl IC: bological properties of Ni Al matrix high temperature self-lubrica- experimental results and thermodynamic modelling.Intermetallics, ting composites.Tribol Int,2011,44(10):1182 2004,12(7-9):963 [14]Fu L H,Han W,Li C H,et al.Microstructure and phases con- [7]Cios G,Bala P,Stepien M,et al.Microstructure of cast Ni-Cr- stitution of CraC2/Nis Al composites prepared by hot isostatic Al-C alloy.Arch Metall Mater,2015,60(1)145 pressing (HIP).J Iron Steel Res,2016,28(12):52 [8]An T B,Luo H L,Peng Y,et al.Characteristic analysis on (傅丽华，韩伟，李长海，等.热等静压C3C2NiA复合材 CrC2/NiAl hardfacing alloy layer.Ordnance Mater Sci Eng, 料的微观组织及相组成.钢铁研究学报，2016,28(12)：52) 2010,33(2):48 [15]Fu L H.Han W.Gong K,et al.Microstructure and tribological (安同邦，骆合力，彭云，等.CC2/NiA1表面堆焊合金层的 properties of CraC/NiAl composite materials prepared by hot 特征分析.兵器材料科学与工程，2010,33(2)：48) isostatic pressing HIP).Mater Des,2017,115:203 [9]da Silva W S,Souza R M,Mello J D B,et al.Room temperature [16]Ma Y X,Gao Y F,Zeng YY.Determination of mechanical mechanical properties and tribology of NICRALC and Stellite cast- properties of phase in directionally-solidified nickel-base super-al- ing alloys..Wemr,2011,271(9-10):1819 loy by nano-indentation.Phys Examin Test,2015,33(2):16 [10]Gu G R,Luo H L,Li S P,et al.Microstructure and abrasive (马亚鑫，高怡斐，曾雨吟.纳米压痕法测定镍基定向凝固 wear resistance of CrC2/NiAl composite.J Aeron Mater, 高温合金相的力学性能.物理测试，2015,33(2)：16) 2007,27(4):50 [17]Qi Y H.Guo JT,Cui C Y.Tensile creep behaviour of NiAl-Cr (顾国荣，骆合力，李尚平，等.CC2/Ni3A复合材料的组 (Zr)multiphase intermetallic alloy.Mater Sci Technol,2003, 织与耐磨性能.航空材料学报，2007,27(4)：50) 19(3):339 [11]Li S P,Luo HL,Cao X,et al.Microstructure and room-temper- [18]Ge P L,Bao M D,Zhang H J,et al.Effect of plasma nitriding ature wear-resistance of Cr;C2/Ni;Al composites.Rare Met Ma- on adhesion strength of CrTiAlN coatings on H13 steels by closed ter Eng,2008,37(1):115 field unbalanced magnetron sputter ion plating.Suf Coat Techn- (李尚平，骆合力，曹栩，等.C3C2/Ni3Al复合材料的微观 ol,2013,229:146 组织和室温耐磨性.稀有金属材料与工程，2008,37(1)： [19]Gong K.A NiAl-Alloy and its Composites as Potential Wear Re- 115) sistant Materials for Adranced Applications Dissertation].Gote- [12]Du LZ,Zhang WG,Zhang D J,et al.Preparation and charac- borg Chalmers University of Technology,2011傅丽华等: Cr3C2 / Ni 3Al 复合材料耐磨性提高的机制分析 cal properties of Ni3Al鄄based alloys with Cr carbides dispersion. Mater Sci Forum, 2007, 561鄄565: 439 [6] Goldenstein H, Silva Y N, Yoshimura H N. Designing a new fam鄄 ily of high temperature wear resistant alloys based on Ni3Al IC: experimental results and thermodynamic modelling. Intermetallics, 2004, 12(7鄄9): 963 [7] Cios G, Ba覥a P, Ste,pie俳 M, et al. Microstructure of cast Ni鄄鄄Cr鄄鄄 Al鄄鄄C alloy. Arch Metall Mater, 2015, 60(1): 145 [8] An T B, Luo H L, Peng Y, et al. Characteristic analysis on Cr3C2 / Ni3Al hardfacing alloy layer. Ordnance Mater Sci Eng, 2010, 33(2): 48 (安同邦, 骆合力, 彭云, 等. Cr3C2 / Ni3Al 表面堆焊合金层的 特征分析. 兵器材料科学与工程, 2010, 33(2): 48) [9] da Silva W S, Souza R M, Mello J D B, et al. Room temperature mechanical properties and tribology of NICRALC and Stellite cast鄄 ing alloys. Wear, 2011, 271(9鄄10): 1819 [10] Gu G R, Luo H L, Li S P, et al. Microstructure and abrasive wear resistance of Cr3C2 / Ni3Al composite. J Aeron Mater, 2007, 27(4): 50 (顾国荣, 骆合力, 李尚平, 等. Cr3C2 / Ni3Al 复合材料的组 织与耐磨性能. 航空材料学报, 2007, 27(4): 50) [11] Li S P, Luo H L, Cao X, et al. Microstructure and room鄄temper鄄 ature wear鄄resistance of Cr3C2 / Ni3Al composites. Rare Met Ma鄄 ter Eng, 2008, 37(1): 115 (李尚平, 骆合力, 曹栩, 等. Cr3C2 / Ni3Al 复合材料的微观 组织和室温耐磨性. 稀有金属材料与工程, 2008, 37 (1): 115) [12] Du L Z, Zhang W G, Zhang D J, et al. Preparation and charac鄄 terization of Ni鄄鄄Al鄄鄄Cr3C2 coating. Key Eng Mater, 2008, 373鄄 374: 15 [13] Zhu S Y, Bi Q L, Yang J, et al. Influence of Cr content on tri鄄 bological properties of Ni3Al matrix high temperature self鄄lubrica鄄 ting composites. Tribol Int, 2011, 44(10): 1182 [14] Fu L H, Han W, Li C H, et al. Microstructure and phases con鄄 stitution of Cr3C2 / Ni3Al composites prepared by hot isostatic pressing (HIP). J Iron Steel Res, 2016, 28(12): 52 (傅丽华, 韩伟, 李长海, 等. 热等静压 Cr3C2 / Ni3Al 复合材 料的微观组织及相组成. 钢铁研究学报, 2016, 28(12): 52) [15] Fu L H, Han W, Gong K, et al. Microstructure and tribological properties of Cr3C2 / Ni3Al composite materials prepared by hot isostatic pressing (HIP). Mater Des, 2017, 115: 203 [16] Ma Y X, Gao Y F, Zeng Y Y. Determination of mechanical properties of phase in directionally鄄solidified nickel鄄base super鄄al鄄 loy by nano鄄indentation. Phys Examin Test, 2015, 33(2): 16 (马亚鑫, 高怡斐, 曾雨吟. 纳米压痕法测定镍基定向凝固 高温合金相的力学性能. 物理测试, 2015, 33(2): 16) [17] Qi Y H, Guo J T, Cui C Y. Tensile creep behaviour of NiAl鄄Cr (Zr) multiphase intermetallic alloy. Mater Sci Technol, 2003, 19(3): 339 [18] Ge P L, Bao M D, Zhang H J, et al. Effect of plasma nitriding on adhesion strength of CrTiAlN coatings on H13 steels by closed field unbalanced magnetron sputter ion plating. Surf Coat Techn鄄 ol, 2013, 229: 146 [19] Gong K. A Ni3 Al鄄Alloy and its Composites as Potential Wear Re鄄 sistant Materials for Advanced Applications [Dissertation]. Gote鄄 borg : Chalmers University of Technology, 2011 ·123·