WC合金具有高硬度、高强度、高耐磨性、强抗腐蚀性等一系列优点,作为一种不可缺少的工具材料已经得到了广泛的应用.结合近几年来WC合金的研究状况,重点讨论其在制备工艺、改性处理等方面的发展动态及其优缺点,并展望了WC合金的发展趋势.
参考文献
| [1] | Wu Y F.Manufacture of both High ultrafine cemented carbide[A].Beijing China.International Academic Publishers,1999:159. |
| [2] | 邬荫芳.“双高”超细合金的研制[J].硬质合金,2000(04):214-20. |
| [3] | T. S. Sudarshan;Zhengui Yao;Jacob J. Stiglich .Nanosized WC-Co holds promise for the future[J].Metal Powder Report,1998(3):26-33. |
| [4] | Shi XL;Shao GQ;Duan XL;Yuan RZ;Lin HH .Mechanical properties, phases and microstructure of ultrafine hardmetals prepared by WC-6.29Co nanocrystalline composite powder[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2005(1/2):335-339. |
| [5] | Youseffi M;Menzies L A .Injection molding of WC-6Co powder using two new binder systems based on montanester waxes and water-soluble gelling polymers[J].Powder Metallurgy,1997,40(01):62. |
| [6] | 祝宝军,曲选辉,陶颖,肖平安,秦明礼.WC-8%Co硬质合金注射成形工艺研究[J].稀有金属材料与工程,2002(04):303-307. |
| [7] | Xuanhui QU;Jianxiang Gao;Mingli Qin .Powder Injection Molding of WC-TiC-CO Cemented Carbides[J].粉体ぉょび粉末冶金,2003(11):899-902. |
| [8] | Jiang G J;Zhuang H R;Li W L .Combustion synthesis of tungsten carbides under electric field I. field activated combustion synthesis[J].Ceramics International,2004,30:185. |
| [9] | 江国健,庄汉锐,李文兰,SHON In-Jin.场激活燃烧合成碳化钨-镍硬质合金[J].硅酸盐学报,2003(12):1208-1211. |
| [10] | Jiang G J;Zhuang H R;Li W L .Field-activated, pressureassisted combustion synthesis of tungsten carbide-nickel composites[J].Materials Letters,2004,58:2855. |
| [11] | Jiang G J;Zhuang H R;Li W L .Combustion synthesis of tungsten carbides under electric field Ⅱ. field-activated pressure-assisted combustion synthesis[J].Ceramics International,2004,30:191. |
| [12] | Kim H C;Oh D Y;Shon I J .Synthesis of WC and dense WC-xvol%Co hard materials by high-frequentcy induction heated combustion method[J].International Journal of Refractory Metals and Hard Materials,2004,22:41. |
| [13] | 张久兴,刘科高,周美玲.放电等离子烧结技术的发展和应用[J].粉末冶金技术,2002(03):129-134. |
| [14] | Matsumoto A;Andoh K .Research and development of novel materials by plasma discharge sintering process[J].Zairyo to Kankyo Corros Eng,1995,44(11):625. |
| [15] | 陈亚军,邹慧.超细WC-Co硬质合金的烧结[J].中国民航学院学报,2003(01):14-18. |
| [16] | Minoru Fukunaga;Masahiro Machida;Keizo Kobayashi;Kimihiro Ozaki .Preparation of cemented carbide with FeAl binder phase by pulsed current sintering process[J].粉体および粉末冶金,2000(5):510-514. |
| [17] | Seung I. Cha;Soon H. Hong;Byung K. Kim .Spark plasma sintering behavior of nanocrystalline WC-10Co cemented carbide powders[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2003(1/2):31-38. |
| [18] | Mamedov V .Spark plasma sintering as advanced PM sintering method[J].Powder Metallurgy,2002,45(04):322. |
| [19] | 刘兵海;张跃;欧阳世禽 等.超细晶粒WC-Co硬质合金的剪切模压成型工艺[J].硬质合金,1999,16(01):20. |
| [20] | 朱文玄;吴一平;徐正达 等.中国工程物理研究院微波烧结技术及其进展[J].材料科学与工程,1998,16(02):61. |
| [21] | Breval E;Cheng J P;Agrawal D K et al.Comparison between microwave and onventional sintering of WC/Co composites[J].Materials Science and Engineering,2005,391:285. |
| [22] | 微波烧结WC-Co细晶硬质合金的工艺与性能[J].中国有色金属学报,1999(03):465. |
| [23] | 贾佐诚 .以镍代钴炭化钨基硬质合金的发展[J].粉末冶金工业,1999,9(04):27. |
| [24] | Tiegs T N;Alexander K B;Plucknett K P et al.Ceramic composites with a ductile Ni3Al binder phase[J].Materials Science and Engineering,1996,209:243. |
| [25] | Sato;Naotoshi T;Osamu et al.Adhesion of aluminum to WC-Co cemented carbide tools[J].Journal of the Japan Society of Powder and Powder Metallurgy,1997,44(04):365. |
| [26] | 李晓东,王兴庆,解迎芳,郭海亮,何宝山.WC-(Co-Al)硬质合金的研究[J].粉末冶金工业,2004(01):14-17. |
| [27] | Obbard E G;Luyckx S.Determination of the composition range suitable to the formation of WC-V,WCx-Co materials[J].International Journal of Refractory Metals and Hard Materials,2001(19):349. |
| [28] | D. Banerjee;G. K. Lai;G. S. Upadhyaya .Effect of Binder-Phase Modification and Cr_3C_2 Addition on Properties of WC-10Co Cemented Carbide[J].Journal of Materials Engineering and Performance,1995(5):563-572. |
| [29] | 祝以湘,胡云行.Effects of Rare Earth Elements on Properties and Structure of WC-14TiC-8Co Cemented Carbide[J].JOURNAL OF RARE EARTHS,1994(02):118. |
| [30] | Sun F H;Zhang Z M;Chen M et al.Improvement of adhesive strength and surface roughness of diamond films on Cocemented tungsten carbide tools[J].Diamond and Related Materials,2003,12:711. |
| [31] | Su Y L;Yao S H .Analyses and design of a WC mi-lling cutter with TiCN[J].Coating Wear,1998,21(05):59. |
| [32] | Ramkumar J;Aravindan S;Malhotra S K .Enhancing the metallurgical properties of WC insert K-20 cutting tool through microwave treatment[J].Materials Letters,2002,53:200. |
| [33] | Beste U.;Engqvist H.;Rimlinger S.;Jacobson S.;Hammerstrom L. .Particle erosion of cemented carbides with low Co content[J].Wear: an International Journal on the Science and Technology of Friction, Lubrication and Wear,2001(1):809-817. |
| [34] | Cha S I;Hong S H;Ha G H et al.Microstructure and mechanical properties of nanocrystalline WC-10Co cemented carbides[J].Scripta Materialia,2001,44(09):1535. |
| [35] | Sun J F;Zhang F;Shen J .Characterizations of ball-milled nanocrystalline WC-Co composite powders and subsequently rapid hot pressing sintered cermets[J].Materials Letters,2003,57:3140. |
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