参考文献

[1]　汪卫华.非晶态物质的本质和特性[J].物理学进展, 2013, 33(5): 177⁃351.

[2]　Ma E.Tuning order in disorder[J].Nature Materials, 2015, 14(6): 547⁃552.

[3]　Inoue A, Shen B L, Koshiba H,et al.Ultra⁃high strength above 5000MPa and soft magnetic properties of Co⁃Fe⁃Ta⁃B bulk glassey alloy[J].Acta Materialia, 2004, 52(6): 1631⁃1637.

[4]　John J G.Mechanical behavior of metallic glasses[J].Journal of Applied Physics, 1975, 46(4): 46⁃53.

[5]　Johnson W L.Bulk glass⁃forming metallic alloys: science and technology[J].MRS Bulletin, 1999, 24(10): 42⁃56.

[6]　Kramer J.Produced the first amorphous metals through vapor deposition [J].Annalen der Physik, 1934, 37(2): 19⁃21.

[7]　Brenner S S.Further observations on the growth of silver whiskers from silver chloride[J].Acta Metallurgica, 1959, 10(7): 677⁃678.

[8]　David T, Morrel H.Concerning reconstructive transformation and formation of glass[J].Journal of Chemical Physics, 1958, 29(5): 1049⁃1054.

[9]　Klement W.Non⁃crystalline structure solidified gold⁃silicon alloys[J].Nature, 1960, 187(9): 869⁃870.

[10]　Kui H W, Greer A L, Turnbull D.Formation of bulk metallic glass by fluxing[J].Applied Physics Letters, 1984, 45(6): 615⁃616.

[11]　Duwez P, Lin S C H.Amorphous ferromagnetic phase in iron⁃carbon⁃phosphorus alloys[J].Journal of Applied Physics, 1967, 38(10): 4096⁃4097.

[12]　Kohmoto O, Ohya K, Yamaguchi N, et al.Magnetic properties of zero magnetostrictive amorphous Fe⁃Co⁃Si⁃B alloys[J].Journal of Applied Physics, 1979, 50(7): 5054⁃5056.

[13]　Yoshizawa Y, Oguma S, Yamauchi K.New Fe⁃based soft magnetic⁃alloys composed of ultrafine grain⁃structure[J].Journal of Applied Physics, 1988, 64(10): 6044⁃6046.

[14]　Suzuki K, Kataoka N, Inoue A.High saturation magnetization and soft magnetic⁃properties of bcc Fe⁃Zr⁃B alloys with ultrafine grain⁃structure[J].Materials Transcitions, 1990, 31(8): 743⁃746.

[15]　Inoue A, Shinohara Y, Gook J S.Thermal and magnetic properties of bulk Fe⁃based glassy alloys prepared by copper mold casting[J].Materials Transcitions, 1995, 36: 1427⁃1433.

[16]　Pang S J, Zhang T, Asami K, et al.Formation of bulk glassy Fe_75-x_-yCrxMoyC₁₅B₁₀ alloys and their corrosion behavior[J].Journal of Materials Research, 2002, 17(3): 701⁃704.

[17]　Pang S J, Zhang T, Asami K,et al.Synthesis of Fe⁃Cr⁃Mo⁃C⁃B⁃P bulk metallic glasses with high corrosion resistance[J].Acta Materialia, 2002, 50(3): 489⁃497.

[18]　Lu Z P, Liu C T, Thompson J R, et al.Structural amorphous steels[J].Physical Review Letters, 2004, 92: 245503.

[19]　Ponnambalam V, Poon S J, Shiflet G J.Fe⁃based bulk metallic glasses with diameter thickness larger than one centimeter[J].Journal of Materials Research, 2004, 19(5): 1320⁃1323.

[20]　Shen J, Chen Q J, Sun J F, et al.Exceptionally high glass⁃forming ability of an FeCoCrMoCBY alloy[J].Applied Physics Letter, 2005,86(15):151907.

[21]　Souza C A C, Ribeiro D V, Kiminami C S.Corrosion resistance of Fe⁃Cr⁃based amorphous alloys: an overview[J].Journal of Non⁃Crystalline Solids, 2016, 442(15): 56⁃66.

[22]　Winston R R.Uhlig's Corrosion Handbook[M]. 2nd edition.US:John Wiley &Sons, Inc, 2000.

[23]　Wang Z M, Ma Y T, Zhang j, et al.Influence of yttrium as a minority alloying element on the corrosion behavior in Fe⁃based bulk metallic glasses[J].Electrochimica Acta, 2008, 54(2): 261⁃269.

[24]　Naka M, Hashimoto K, Masumoto T.Corrosion resistivity of amorphous iron alloys containing chromium[J].Journal of The Japan Institute of Metals and Materials, 1975, 38(9): 835⁃841.

[25]　Hashimoto K.In pursuit of new corrosion⁃resistant alloys[J].Corrosion, 2002, 58(9): 715⁃722.

[26]　Pang S J, Zhang T, Asami K, et al.Bulk glassy Fe⁃Cr⁃Mo⁃C⁃B alloys with high corrosion resistance[J].Corrosion Science, 2002, 44(8): 1847⁃1856.

[27]　Pang S J, Zhang T, Asami K, et al.Synthesis of Fe⁃Cr⁃Mo⁃C⁃B⁃P bulk metallic glasses with high corrosion resistance[J].Acta Materialia, 2002, 50(3): 489⁃497.

[28]　Wang A P, Zhang T, Wang J Q.Ni⁃based fully amorphous metallic coating with high corrosion resistance[J].Philosophical Magazine Letters, 2006, 86(1): 5⁃11.

[29]　Farmer J C, Haslam J J, Day S D, et al.Corrosion resistance of iron⁃based amorphous metal coatings[C].Vancouver:2006 ASME Pressure Vessels and Piping Division Conference: Pressure Vessel Technologies for the Global Community,2006: 4378⁃4384.

[30]　Naka M, Hashimoto K, Masumoto T.High corrosion⁃resistance of chromium⁃bearing amorphous iron⁃alloys in neutral and acidic solutions containing chloride[J].Corrosion, 1976, 32(4): 146⁃152.

[31]　Habazaki H, Kawashima A, Asami K, et al.The corrosion behavior of amorphous Fe⁃Cr⁃Mo⁃P⁃C and Fe⁃Cr⁃W⁃P⁃C alloys in 6M HCl solution[J].Corrosion Science, 1992, 33(2): 225⁃236.

[32]　Hashimoto K, Katagiri H, Habazaki H, et al.Extremely corrosion⁃resistant bulk amorphous alloys[J].Journal of Metastable and Nanocrystalline Materials, 2001, 11: 1⁃8.

[33]　Souza C A C, May J E.Bolfarini L, et al.Influence of composition and partial crystallization on corrosion resistance of amorphous Fe⁃M⁃B⁃Cu (M = Zr, Nb, Mo) alloys[J].Journal of Non⁃Crystalline Solids, 2001, 284(1⁃3): 99⁃104.

[34]　Asami K, Habazaki H, Inoue A, et al.Recent development of highly corrosion resistant bulk glassy alloys[J].Materials Science Forum, 2005, 502(12): 225⁃230.

[35]　Jayaraj J, Kim K B, Ahn H S, et al.Corrosion mechanism of N⁃containing Fe⁃Cr⁃Mo⁃Y⁃C⁃B bulk amorphous alloys in highly concentrated HCl solution[J].Material Science and Engineering A, 2007, 449⁃451(3): 517⁃520.

[36]　Farmer J C, Chol J S, Saw C, et al.Iron⁃based amorphous metals: high⁃performance corrosion⁃resistant material development[J].Metallurgical and Materials Transaction A, 2009, 40(6): 1289⁃1305.

[37]　Katagiri H, Meguro S, Yamasaki M.Synergistic effect of three corrosion⁃resistant elements on corrosion resistance in concentrated hydrochloric acid[J].Corrosion Science, 2001, 43: 171⁃182.

[38]　Asami K, Naka M, Hashimoto K, et al.Effect of molybdenum on the anodic behavior of amorphous Fe⁃Cr⁃Mo⁃B alloys in hydrochloric⁃acid[J].Journal of The Electrochemical Society, 1980, 127(10): 2130⁃2138.

[39]　Wang W H.Roles of minor additions in formation and properties of bulk metallic glasses [J].Progress in Materials Science,2007, 52: 540⁃596.

[40]　Scully J R, Gebert A, Payer J H.Corrosion and related mechanical properties of bulk metallic glasses[J].Journal of Materials Research, 2007, 22(2): 302⁃313.

[41]　Yao J H, Wang J Q, Li Y.Ductile Fe⁃Nb⁃B bulk metallic glass with ultrahigh strength[J].Applied Physics Letters, 2008, 92(25): 76⁃78.

[42]　Inoue A, Shen B L, Chang C T.Super⁃high strength of over 4000MPa for Fe⁃based bulk glassy alloys in [(Fe_1-xCox)_0.75B_0.2Si_0.05]₉₆Nb₄ system[J].Acta Materialia, 2004, 52(14): 4093⁃4099.

[43]　Dent A H , Horlock A J, McCartney D G, et al.Microstructure formation in high velocity oxy⁃fuel thermally sprayed Ni⁃Cr⁃Mo⁃B alloys[J].Materials Science and Engineering A, 2000, 283(1⁃2): 242⁃250.

[44]　Branagan D J, Swank W D, Haggard D C.Wear⁃resistant amorphous and nanocomposite steel coatings[J].Metallurgical and Materials Transactions, 2001, 32(10): 2615⁃2621.

[45]　Branagan D J, Marshall M C, Meacham B E,et al.Wear and corrosion resistant amorphous/nanostructure steel coatings for replacement of electrolytic hard chromium[C].Washington:ITSC 2006 Process,2006, 5: 1⁃6.

[46]　Branagan D.Method of modifying iron⁃based glasses to increase crystallization temperature without changing melting temperature[P]:US 20040250929.2004⁃12⁃16.

[47]　Branagan D.Properties of amorphous/partially crystalline coatings[P]:US 20040253381.2004⁃12⁃16.

[48]　Farmer J C, Haslam J J, Day S J, et al.Corrosion characterization of iron⁃based high⁃performance amorphous⁃metal thermal⁃spray coatings[J].American Society of Mechanical Engineers, 2005, 7: 583⁃589.

[49]　Branagan D J, Swank W D, Haggard D C.Wear⁃resistant amorphous and nanocomposite steel coatings[J].Metallurgical and Materials Transactions A, 2001, 32: 2615⁃2621.

[50]　Rebak R B, Day S D, Lian T G, et al.Environmental testing of iron⁃based amorphous alloys[J].Metallurgical and Materials Transaction A, 2008, 39(2): 225⁃234.

[51]　Farmer J C, Haslam J J, Day S D, et al.Corrosion resistance of thermally sprayed high⁃boron iron⁃based amorphous⁃metal coatings: Fe_49.7Cr_17.7Mn_1.9Mo_7.4W_1.6B_15.2C_3.8Si_2.4[J].Journal of Materials Research, 2007, 22(8): 2297⁃2311.

[52]　Farmer J, Wong F, Haslam J, et al.Development, processing and testing of high⁃performance corrosion⁃resistant HVOF coatings[C].California:Global 2003 Topical Meeting at the American Nuclear Society Conference,2003, (8): 1⁃6.

[53]　Lee N L, Fisher G B, Schulz R.Sputter deposition of a corrosion⁃resistant amorphous metallic coating[J].Journal of Materials Research, 1988, 3(5): 862⁃871.

[54]　Sampath J.Microstructural characteristics of plasma spray consolidated amorphous powders[J].Materials Science and Engineering A, 1993, 167(1⁃2): 1⁃10.

[55]　Otsubo F, Kishitake K, Terasaki T.Residual stress distribution in thermally sprayed self⁃fluxing alloy coatings[J].Materials.Transctions, 2005, 46(11): 2473⁃2477.

[56]　Duwez P, Lin S C H.Amorphous ferromagnetic phase in iron⁃carbon⁃phosphorus alloys[J].Journal of Applied Physics, 1967, 38(10): 4096⁃4097.

[57]　Farmer J C, Choi J S, Day S D, et al.High performance coatings for spent fuel containers and components[C].Texas:Proceedings of the ASME Pressure Vessels and Piping Conference,2007, 7: 539⁃544.

[58]　Stokes J, Looney L.HVOF system definition to maximise the thickness of formed components[J].Surface and Coatings Technology, 2001, 148(1): 18⁃24.

[59]　Ni H S, Liu H S, Chang X C, et al.High performance amorphous steel coating prepared by HVOF thermal spraying[J].Journal of Alloys and Compounds, 2009, 467(1⁃2): 163⁃167.

[60]　Zhang S D,Wu J, Qi W B, et al.Effect of porosity defects on the long⁃term corrosion behaviour of Fe⁃based amorphous alloy coated mild steel[J].Corrosion Science, 2016, 110: 57⁃70.

[61]　Wang Y, Zheng Y G, Ke W, et al.Slurry erosion⁃corrosion behaviour of high⁃velocity oxy⁃fuel(HVOF) sprayed Fe⁃based amorphous metallic coatings for marine pump in sand⁃containing NaCl solutions[J].Corrosion Science, 2011, 53(10): 3177⁃3185.

[62]　Zheng Z B, Zheng Y G, Sun W H, et al.Erosion⁃corrosion of HVOF⁃sprayed Fe⁃based amorphous metallic coating under impingement by a sand⁃containing NaCl solution[J].Corrosion Science, 2013, 76: 337⁃347.

[63]　Zhang C, Chan K C, Wu L, et al.Pitting initiation in Fe⁃based amorphous coating[J].Acta Materialia, 2012, 60(10): 4152⁃4159.

[64]　王勇.耐蚀耐磨铁基非晶合金涂层制备及腐蚀与冲蚀性能研究[D].北京:中国科学院研究生院, 2012.

[65]　Ma H R, Chen X Y, Liu J, et al.Fe⁃based amorphous coating with high corrosion and wear resistance[J].Surface Engineering,2017, 33(1): 56⁃62.

[66]　梁秀兵, 程江波, 白金元, 等.铁基非晶纳米晶涂层组织与冲蚀性能分析[J].焊接学报, 2009, 30(2): 61⁃64.

[67]　Marple B R, Lima R S.Process temperature/velocity⁃hardness⁃wear relationships for high⁃velocity oxyfuel sprayed nanostructured and conventional cermet coatings[J].Journal of Thermal Spray Technology, 2005, 14(1): 67⁃76.

[68]　叶凤霞, 陈燕, 余鹏, 等.通过AC⁃HVAF方法制备铁基非晶纳米晶涂层的结构分析[J].物理学报, 2014, 63(7):078101⁃1~6.

[69]　He J, Ice M, Lavernia E.Particle melting behavior during high⁃velocity oxygen fuel thermal spraying[J].Journal of Thermal Spray Technology, 2001, 10: 83⁃93.

[70]　Zhang C, Guo R Q, Yang Y, et al.Influence of the size of spraying powders on the microstructure and corrosion resistance of Fe⁃based amorphous coating[J].Electrochemica Acta, 2011, 56(18): 6380⁃6388.

[71]　Li M, Christofides P D.Modeling and control of high⁃velocity oxygen⁃fuel (HVOF) thermal spray: A tutorial review[J].Journal of Thermal Spray Technology, 2009, 18(5⁃6): 753⁃768.

[72]　王勇.AC⁃HVAF铁基非晶涂层制备及力学作用下腐蚀行为研究[D].上海:同济大学博士后出站报告, 2016.

[73]　Wang Y, Xing Z Z, Luo Q, et al.Corrosion and erosion⁃corrosion behaviour of activated combustion high⁃velocity air fuel sprayed Fe⁃based amorphous coatings in chloride⁃containing solutions[J].Corrosion Science, 2015, 98 (9): 339⁃353.

[74]　孙丽丽, 王尊策, 王勇.AC⁃HVAF热喷涂涂层在压裂液中冲蚀行为研究[J].中国表面工程, 2018, 31(1): 131⁃139.

[75]　孙丽丽.水力压裂工况下典型材质损伤行为及机理研究[D].大庆:东北石油大学, 2015.

[76]　Wang Y, Li K Y, Scenini F, et al.The effect of residual stress on the electrochemical corrosion behavior of Fe⁃based amorphous coatings in chloride⁃containing solutions[J].Surface and Coatings Technology, 2016, 302(9): 27⁃38.

[77]　Wang Y, Li M Y, Sun L L, et al.Environmentally assisted fracture behavior of Fe⁃based amorphous coatings in chloride⁃containing solutions[J].Journal of Alloys and Compounds, 2018, 738(3): 37⁃48.