毛明涛等：H13热作模具钢中液析碳化物的研究进展 ·1299· 1):221) ty of Science and Technology Beijing,2015 [45]Zhang H W.Study on the Fabrication and the Solidification Be- (王亮亮.镁对H13热作模具钢夹杂物及性能影响的研究 hatior of SiC/Al-Mg Composites Prepared by Mechanical Stirring [学位论文].北京：北京科技大学，2015) Dissertation ]Harbin:Harbin Institute of Technology,2011 [56]Wu Z,Li J,Shi C B,et al.Effect of magnesium addition on in- (张宏伟.机械搅拌制备SiC/A-Mg复合材料及其凝固行为 clusions in H13 die steel.Int J Miner Metall Mater,2014,21 的研究[学位论文].哈尔滨：哈尔滨工业大学，2011) (11):1062 [46]Yurko J A,Martinez R A,Flemings M C.Commercial develop- [57]Chen ZZ.Lan D N.Die Steel Manual.Beijing:Metallurgical ment of the semi-solid rheocasting SSRTM)process.Metall Sci Industry Press,2002 Technol,.2003,21(1):10 (陈再枝，蓝德年.模具钢手册.北京：治金工业出版社， [47]Haga T.Kapranos P.Simple rheocasting processes.Mater 2002) Process Technol,2002,130-131:594 [58]Sun X L,Wang F,Chen X C,et al.Study on decomposition of [48]Deng K G.Li C R,Yang Y M.Study on Effect of cerium ele- primary carbonitrides in H13 steel under high temperature.Chin ment on isotropic properties of H13 die steel.J Chin Soc Rare JEmg,2017,39(5):721 Earths,2016,34(4):439 (孙晓林，王飞，陈希春，等.高温时H13钢中初生碳氨化物 (邓开国，李长荣，杨远梅.铈元素对H13模具钢等向性能 的分解研究.工程科学学报，2017,39(5)：721) 影响的研究.中国稀土学报，2016,34(4)：439) [59]Lu M H.Tian Y X.Cai H Y,et al.Effect of high-temperature [49]Lan J,He JJ,Ding WJ,et al.Influence of RE on solidification homogenization on banded segregation and impact toughness of structure and impact toughness of cast H13 steel.fron Steel, H13 steel mandrel.Heat Treat Met,2010,35(8):9 2000,35(10):48 (陆明和，田玉新，蔡海燕，等.高温均匀化退火对H13钢芯 (兰杰，贺俊杰，丁文江，等.RE对铸造H13钢凝固组织及 棒带状偏析和冲击性能的彩响.金属热处理，2010,35(8)： 冲击韧性的影响.钢铁，2000,35(10)：48) 9) [50]Lan J,He J J,Ding WJ,et al.Effect of rare earth metals on the [60]Tang W J,Wu X C Min Y A,et al.Influence of homogenization microstructure and impact toughness of a cast 0.4C-5Cr-1.2Mo- on the strength and impact toughness of H13 steel.Shanghai -1.0 V steel.1SU1nt,2000,40(12):1275 Met,2002,24(2):14 [51]Huang Y,Xie Y,Cheng GG.et al.Effect of rare earth on large (唐文军，吴晓春，闵永安，等.高温均匀化对H13钢强韧性 size heterogeneous nucleation carbide in H13 steel.Chin Soc 的彩响.上海金属，2002,24(2)：14) Rare Earths,2017,35(6):782 [61]Chen J L,Tian P F.Study on heat treatment techniques for ho- (黄宇，谢有，成国光，等.稀土对于H13钢中大尺寸非均质 mogenizing the annealed structure of H13 steel.Shanxi Metall, 形核碳化物的影响.中国稀土学报，2017,35(6)：782) 2009(3):8 [52]Wei D.Effect of Ce on Microstructure and Mechanical Properties of (陈建礼，田培凤.H13模块退火组织均匀化热处理工艺试 H13 Steel Dissertation ]Huhehaote:Inner Mongolia University 验研究.山西冶金，2009(3)：8) of Technology,2015 [62]Mao M T,Guo H J,Sun X L,et al.In-situ research of high- (魏东.稀土Ce对H13钢组织和力学性能的影响[学位论 temperature behavior of primary carbide in H13 steel.Chin J 文].呼和浩特：内蒙古工业大学，2015) Eng,2017,39(8):1174 [53]Kheirandish S,Noorian A.Effect of niobium on microstructure of (毛明涛，郭汉杰，孙晓林，等.基于原位观察的H13钢中 cast AISI H13 hot work tool steel.J Iron Steel Res Int,2008,15 液析碳化物高温行为研究.工程科学学报，2017,39(8)： (4):61 1174) [54]Hao Y F,Cheng GG,Xie Y.Formation mechanism and thermal [63]Flemings M C.Behavior of metal alloys in the semisolid state. stability of primary carbonitrides in Nb-containing H13 tool steel. Metall Trans A,1991,22(5):957 Trans Mater Heat Treat,2017,38(4):132 [64]Song WW,Min Y A,Wu X C.Comparative studies on strength (郝勇飞，成国光，谢有.含铌H13钢中一次碳氮化物生成 and toughness of SDH8 and H13 hot work steel.Heat Treat Met, 机理及热稳定性.材料热处理学报，2017,38(4)：132) 2008,33(9):59 [55]Wang LL.Study on Effect of Magnesium on Inclusion and Proper- (宋雯雯，闵永安，吴晓春.热作模具钢SDH8与H13的强韧 ties of H13 Hot Work Die Steel Dissertation ]Beijing:Universi- 性对比研究.金属热处理，2008,33(9)：59)毛明涛等: H13 热作模具钢中液析碳化物的研究进展 1): 221) [45] Zhang H W. Study on the Fabrication and the Solidification Be鄄 havior of SiCp / Al鄄Mg Composites Prepared by Mechanical Stirring [Dissertation]. Harbin: Harbin Institute of Technology, 2011 (张宏伟. 机械搅拌制备 SiCp / Al鄄Mg 复合材料及其凝固行为 的研究[学位论文]. 哈尔滨: 哈尔滨工业大学, 2011) [46] Yurko J A, Martinez R A, Flemings M C. Commercial develop鄄 ment of the semi鄄solid rheocasting ( SSRTM) process. Metall Sci Technol, 2003, 21(1): 10 [47] Haga T, Kapranos P. Simple rheocasting processes. J Mater Process Technol, 2002, 130鄄131: 594 [48] Deng K G, Li C R, Yang Y M. Study on Effect of cerium ele鄄 ment on isotropic properties of H13 die steel. J Chin Soc Rare Earths, 2016, 34(4): 439 (邓开国, 李长荣, 杨远梅. 铈元素对 H13 模具钢等向性能 影响的研究. 中国稀土学报, 2016, 34(4): 439) [49] Lan J, He J J, Ding W J, et al. Influence of RE on solidification structure and impact toughness of cast H13 steel. Iron Steel, 2000, 35(10): 48 (兰杰, 贺俊杰, 丁文江, 等. RE 对铸造 H13 钢凝固组织及 冲击韧性的影响. 钢铁, 2000, 35(10): 48) [50] Lan J, He J J, Ding W J, et al. Effect of rare earth metals on the microstructure and impact toughness of a cast 0郾 4C鄄鄄5Cr鄄鄄1郾 2Mo鄄 鄄1郾 0V steel. ISIJ Int, 2000, 40(12): 1275 [51] Huang Y, Xie Y, Cheng G G, et al. Effect of rare earth on large size heterogeneous nucleation carbide in H13 steel. J Chin Soc Rare Earths, 2017, 35(6): 782 (黄宇, 谢有, 成国光, 等. 稀土对于 H13 钢中大尺寸非均质 形核碳化物的影响. 中国稀土学报, 2017, 35(6): 782) [52] Wei D. Effect of Ce on Microstructure and Mechanical Properties of H13 Steel [Dissertation]. Huhehaote: Inner Mongolia University of Technology, 2015 (魏东. 稀土 Ce 对 H13 钢组织和力学性能的影响[学位论 文]. 呼和浩特: 内蒙古工业大学, 2015) [53] Kheirandish S, Noorian A. Effect of niobium on microstructure of cast AISI H13 hot work tool steel. J Iron Steel Res Int, 2008, 15 (4): 61 [54] Hao Y F, Cheng G G, Xie Y. Formation mechanism and thermal stability of primary carbonitrides in Nb鄄containing H13 tool steel. Trans Mater Heat Treat, 2017, 38(4): 132 (郝勇飞, 成国光, 谢有. 含铌 H13 钢中一次碳氮化物生成 机理及热稳定性. 材料热处理学报, 2017, 38(4): 132) [55] Wang L L. Study on Effect of Magnesium on Inclusion and Proper鄄 ties of H13 Hot Work Die Steel [Dissertation]. Beijing: Universi鄄 ty of Science and Technology Beijing, 2015 (王亮亮. 镁对 H13 热作模具钢夹杂物及性能影响的研究 [学位论文]. 北京: 北京科技大学, 2015) [56] Wu Z, Li J, Shi C B, et al. Effect of magnesium addition on in鄄 clusions in H13 die steel. Int J Miner Metall Mater, 2014, 21 (11): 1062 [57] Chen Z Z, Lan D N. Die Steel Manual. Beijing: Metallurgical Industry Press, 2002 (陈再枝, 蓝德年. 模具钢手册. 北京: 冶金工业出版社, 2002) [58] Sun X L, Wang F, Chen X C, et al. Study on decomposition of primary carbonitrides in H13 steel under high temperature. Chin J Eng, 2017, 39(5): 721 (孙晓林, 王飞, 陈希春, 等. 高温时 H13 钢中初生碳氮化物 的分解研究. 工程科学学报, 2017, 39(5): 721) [59] Lu M H, Tian Y X, Cai H Y, et al. Effect of high鄄temperature homogenization on banded segregation and impact toughness of H13 steel mandrel. Heat Treat Met, 2010, 35(8): 9 (陆明和, 田玉新, 蔡海燕, 等. 高温均匀化退火对 H13 钢芯 棒带状偏析和冲击性能的影响. 金属热处理, 2010, 35(8): 9) [60] Tang W J, Wu X C Min Y A, et al. Influence of homogenization on the strength and impact toughness of H13 steel. Shanghai Met, 2002, 24(2): 14 (唐文军, 吴晓春, 闵永安, 等. 高温均匀化对 H13 钢强韧性 的影响. 上海金属, 2002, 24(2): 14) [61] Chen J L, Tian P F. Study on heat treatment techniques for ho鄄 mogenizing the annealed structure of H13 steel. Shanxi Metall, 2009(3): 8 (陈建礼, 田培凤. H13 模块退火组织均匀化热处理工艺试 验研究. 山西冶金, 2009(3): 8) [62] Mao M T, Guo H J, Sun X L, et al. In鄄situ research of high鄄 temperature behavior of primary carbide in H13 steel. Chin J Eng, 2017, 39(8): 1174 (毛明涛, 郭汉杰, 孙晓林, 等. 基于原位观察的 H13 钢中 液析碳化物高温行为研究. 工程科学学报, 2017, 39 (8): 1174) [63] Flemings M C. Behavior of metal alloys in the semisolid state. Metall Trans A, 1991, 22(5): 957 [64] Song W W, Min Y A, Wu X C. Comparative studies on strength and toughness of SDH8 and H13 hot work steel. Heat Treat Met, 2008, 33(9): 59 (宋雯雯, 闵永安, 吴晓春. 热作模具钢 SDH8 与 H13 的强韧 性对比研究. 金属热处理, 2008, 33(9): 59) ·1299·