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喷射成形是一种先进的快速凝固近终形材料制备技术,在制备高性能钢铁材料方面有着独特的优势和广阔的应用前景.阐述了各种喷射成形钢铁材料的研究进展,对喷射成形钢铁材料的组织和性能特征进行了综合评述.

参考文献

[1] 苏俊,崔成松,曹福洋,李庆春.喷射成形技术在钢铁材料中的应用[J].铸造,2002(07):399-402.
[2] 颜飞,徐洲,史海生,樊俊飞.喷射成形技术及其在钢铁材料上的应用[J].材料导报,2007(03):90-93.
[3] Ikawa Y;Itami T;Kumagai K et al.Spray deposition method and its application to the production of mill rolls[J].ISIJ International,1990,30(09):756-763.
[4] Eon-Sik Lee;Woo-Jin Park;Kyeong-Ho Baik;Sangho Ahn .Different carbide types and their effect on bend properties of a spray-formed high speed steel[J].Scripta materialia,1998(8):1133-1138.
[5] Eon-Sik Lee;Woo-Jin Park .Solidification microstructure and M2C carbide decomposition in a Spray-Formed high-speed steel[J].Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science,1998(5):1395-1404.
[6] D. N. Hanlon;W. M. Rainforth .The rolling sliding wear response of conventionally processed and spray formed high speed steel at ambient and elevated temperature[J].Wear: an International Journal on the Science and Technology of Friction, Lubrication and Wear,2003(7/12):956-966.
[7] Rafael Agnelli Mesquita;Celso Antonio Barbosa .Spray forming high speed steel—properties and processing[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2004(1):87-95.
[8] Kjeldsteen P .Carbides in spray formed tool steels[R].
[9] Spiegelhauer C;Davin H .Properties of spray formed high speed steels[R].
[10] Zhang Y;Zhang G Q;Li Z et al.Analysis of twin-nozzlescanning spray forming process and spray formed high speed steel (HSS)[J].International Journal of Iron and Steel Research,2007,14(5,Supplement 1):7-10.
[11] C.D.Zhou,J.F.Fan,H.R.Le,Y.J.Lin,D.S.Sun,J.G.Zhang.MICROSTRUCTURAL CHARACTERISTICS AND MECHANICAL PROPERTIES OF SPRAY FORMED HIGH SPEED STEEL FOR WORK ROLL[J].金属学报(英文版),2004(04):548-553.
[12] Candong Zhou;Junfei Fan;Hairong Le;Jingguo Zhang .Superplastic Deformation Behavior of Spray Formed High Speed Tool Steel at 820°C[J].Materials Science Forum,2007(1):91-94.
[13] Schulz A;Uhlenwinkel V;Bertrand C.High-alloyed tools steels spray-formed to medium size billets and their performance in comparison to conventional route matrial[A].University of Bremen,2002:149-172.
[14] Hanlon D N;Rainforth W M;Sellars C M .The effect of processing route,composition and hardness on the wear response of chromium bearing steels in a rolling-sliding configuration[J].Wear,1997,203-204:220-229.
[15] Hanlon DN.;Sellars CM.;Price R.;Gisborne HT.;Forrest J.;Rainforth WM. .The structure and properties of spray formed cold rolling mill work roll steels[J].Journal of Materials Science,1998(13):3233-3244.
[16] McHugh K M;Wickham B R.Spray formed tooling for injection molding and die casting applications[A].Bremen,Germany,2000:121-133.
[17] Spiegelhauer C.Industrial production of tool steels using the spray forming technology[A].Karlstad,Sweden,2002:1101-1109.
[18] Spiegelhauer C .Information sheet SPRAY D2[OL].http://www.spraysteel.com/
[19] Emst I C;Duh D .Properties of cold-work tool steel X155CrVMo12-1 produced via spray forming and conventional ingot casting[J].Journal of Materials Science,2004,39(22):6835-6838.
[20] Schulz A;Rabitsch R;Stocchi D et al.Evaluation of the possibility of spray forming for the production of very high alloyed steels without necessity of heavy hot working[Technical report of the European commission Research Program,ECSC 7210-PR-364][R].,2005.
[21] A. Schulz;V. Uhlenwinkel;C. Bertrand;R. Kohlmann;A. Kulmburg;A. Oldewurtel;R. Schneider;D. Viale .Nitrogen pick-up during spray forming of high-alloyed steels and its influence on microstructure and properties of the final products[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2004(1):58-68.
[22] Alwin Schulz;Volker Uhlenwinkel;Christoph Escher .Opportunities and challenges of spray forming high-alloyed steels[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2008(1/2):69-79.
[23] A. Schulz;C. Cut;H.-W. Zoch;R. Doll;K. Partes;E. Vollertsen .Micro cold forming tools from hypereutectoid 8%Cr-steels by spray forming and selective laser melting[J].HTM: Zeitschrift fur Werkstoffe Warmebehandlung Fertigung,2010(3):125-134.
[24] Jing Guo Zhang;Han Bin Xu;Hai Sheng Shi .Microstructure and properties of spray formed Cr_(12)MoV steel for rolls[J].Journal of Materials Processing Technology,2001(1/3):79-84.
[25] 徐寒冰,吴建生,章靖国.喷射成形Cr12MoV钢显微组织研究[J].金属热处理,2001(05):1-3.
[26] 徐寒冰,简小刚,吴建生,章靖国.喷射成形及轧制Cr12MoV钢的微观组织与摩擦学性能研究[J].金属学报,2001(08):889-892.
[27] 颜飞,徐洲,史海生,樊俊飞.喷射成形Vanadis 4冷作模具钢的组织和性能[C].2007年上海粉末冶金学术年会,2007:81-85.
[28] Fei Yan;Zhou Xu;Haisheng Shi .Microstructure of the spray formed Vanadis 4 steel and its ultrafine structure[J].Materials Characterization,2008(5):592-597.
[29] Y. Yang;S.P. Hannula .Soundness of spray formed disc shape tools of hot-work steels[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2004(1):39-44.
[30] McHugh K M .Spray forming system for producing molds,dies and related tooling[P].US,6074194,2000-06-13.
[31] K.M. McHugh;Y. Lin;Y. Zhou .Influence of cooling rate on phase formation in spray-formed H13 tool steel[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2008(1/2):50-57.
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