分别采用传统铸造与喷射成形工艺制备了H13钢并对其进行了锻造和传统热处理.利用OM,SEM和XRD研究了铸造与喷射成形H13钢在不同工艺状态下组织的差异,并且在相同的热处理制度下测试了两者的常温与高温力学性能.结果表明:与传统铸造H13钢相比,喷射成形H13钢具有更好的回火稳定性、更高的室温与高温拉伸强度,室温冲击韧性提高了2倍,并且消除了带状偏析,提高了组织的等向性.喷射成形H13钢力学性能的提高主要归因于沉积态H13钢组织均匀细小,消除了宏观偏析,更没有粗大的一次碳化物,这使得淬火后基体含有更多的合金元素,分布也更均匀,从而在回火时析出的二次碳化物更弥散并且晶粒也更细.
参考文献
| [1] | ASM International Handbook Committee.Metals Handbook.10th Ed.,Metals Park:ASM,1990:93 |
| [2] | Zhou J,Ma D S,Liu B S,Kang A J,Li X Y.J Iron Steel Res,2012;24(4):47(周健,马党参,刘宝石,康爱军,李向阳.钢铁研究学报,2012;24(4):47) |
| [3] | Huo X Y.J Iron Steel Res,2008; 20(11):47(霍晓阳.钢铁研究学报,2008; 20(11):47) |
| [4] | Kheirandish S,Noorian A.J Iron Steel Res Int,2008; 15(4):61 |
| [5] | Rafi H K,Ram G D,Phanikumar G,Rao K P.Mater Des,2011; 32:82 |
| [6] | Hiraoka H,Kataoka Y,Yuda K,Taniguchi K,Sasada M,Hishinuma I.ISIJ Int,1992; 32:1177 |
| [7] | Rivilin V G.IntMaterRev,1984; 29:299 |
| [8] | Schaaf P,Kramer A,Wiesen S,Gonser U.Acta Metall Mater,1994;42:3077 |
| [9] | Grant P S.Prog Mater Sci,1995; 39:497 |
| [10] | Lachenicht V,Scharf G,Zebrowski D,Shalimov A.Metallurgist,2011; 54:656 |
| [11] | Ulhlenwinkel V,Ellendt A.Mater Sci Forum,2007; 534-536:429 |
| [12] | Sahu S N,Harikishore S,Koria S C.PowderMetall,2005; 48:270 |
| [13] | Grant P S.Metall Mater Trans,2007; 38A:1520 |
| [14] | Yang Y F,Hannula S P.Mater Sci Eng,2008; A477:63 |
| [15] | Brooks R G,Moore C,Leatham A G.Powder Metall,1977; 20:100 |
| [16] | Leatham A G,Lawly A.Int J Powder Metall,1993; 29:321 |
| [17] | Lavernia E J,Wu Y.Spray Atomization and Deposition.New York:J Wiley and Sons,1996:5 |
| [18] | Lin Y J,McHugh K M,Zhou Y Z,Lavernia E J.Scr Mater,2006;55:581 |
| [19] | Liang X,Earthman J C,Lavernia E J.Acta Metall Mater,1992;40:3003 |
| [20] | Kayser F,Cohen M.MetProg,1952; 61(6):79 |
| [21] | Liu Z C,Du Z W,Zhu W F,Cao D K.Ordnance Mater Sci Eng,2001; 24(3):11(刘宗昌,杜志伟,朱文方,曹东奎.兵器材料科学与工程,2001:24(3):11) |
| [22] | Eggeler G.Acta Metall,1989; 37:3225 |
| [23] | Tarui T,Takahashi T,Ohashi S,Uemori R.Iron Steelmaker,1994;21:25 |
| [24] | Delagnes D,Lamesle P,Mathon M H,Mebarki N,Levaillant C.Mater Sci Eng,2005; A394:435 |
| [25] | Kozeschnik E,Bhadeshia.Mater Sci Technol,2008; 24:343 |
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