综述了变形高温合金和等轴晶铸造高温合金研制过程中的有关应用基础理论,主要涉及3个方面:变形高温合金和微量元素的作用机理;等轴晶铸造高温合金和蠕变机理研究;抗热腐蚀高温合金和新相变的发现及蠕变-疲劳-环境交互作用.
参考文献
[1] | Shi C X,Xiao Y T,Guo J T.GH135 Iron base Superalloy.Shenyang:Institute of Metal Research,Chinese Academy of Sciences,1974:1(师昌绪,肖跃天,郭建亭.GH135铁基高温合金.沈阳:中国科学院金属研究所,1974:1) |
[2] | Chinese Handbook of Aeronautical Materials Committee.Chinese Handbook of Aeronautical Materials.Beijing:Chinese Specification Press,2002(中国航空材料手册编委会.中国航空材料手册.北京:中国标准出版社,2002) |
[3] | Guo J T.Materials Science and Engineering for Superalloy (Ⅰ).Bejing:Science Press,2008:23(郭建亭.高温合金材料学(上).北京:科学出版社,2008:23) |
[4] | Guo J T.Materials Science and Engineering for Superalloy (Ⅲ).Bejing:Science Press,2010:7(郭建亭.高温合金材料学(下).北京:科学出版社,2010:7) |
[5] | Guo J T.Acta Metall Sin,1978; 14(3):227(郭建亭.金属学报,1978;14(3):227) |
[6] | Yuan C,Guo J T.The Development of Superalloy GH2328.Jul.2010,Unpublished(袁超,郭建亭.GH2328合金研制总结.2010年7月) |
[7] | Guo J T.Acta MetaU Sin,1995; 31(Suppl):S126(郭建亭.金属学报,1995;31(增刊):S126) |
[8] | Institute of Metal Research,Chinese Academy of Sciences.In:Institute of Metal Research,Shanghai No.5 Steel Works,Ed.,Proc SuperaUoys,Nantong:Nanton Prees,1979:139(中国科学院金属研究所.见:金属研究所上钢五厂主编.高温合金论文集(第一集).南通:南通县印刷厂,1979:139) |
[9] | Sun W R.Master Dissertation,Institute of Metal Research,Chinese Academy of Sciences,Shenyang,1992(孙文儒.中国科学院金属研究所硕士学位论文,沈阳,1992) |
[10] | Sun W R,Guo S R,Guo J T,Lu D Z,Hu Z Q.Acta Metall Sin,1995; 31:A346(孙文儒,郭守仁,郭建亭,卢德忠,胡壮麒.金属学报,1995;31:A346) |
[11] | Guo S R,Sun W R,Guo J T,Lu D Z,Hu Z Q.In:Liu C T,ed.,Proc Int Syrup Advanced Materials and Teehonlogy for the 21st Century,Honolulu,Dec 13-15,1995 |
[12] | Sun W R,Guo S R,Guo J T,Tong B Y,Yang Y S,Sun X F,Guan H R,Hu Z Q.In:pollock T M,Kissinge R D,eds.,Superalloys 2000,Pennsylvania:TMS,2000:467 |
[13] | Sun W R,Guo S R,Lu D Z,Guo J T,Yang Y S,Zang Y,Hu Z Q.Acta Metall Sin,1999; 35(Suppl 2):S37(孙文儒,郭守仁,卢德忠,郭建亭,杨院生,张匀,胡壮麒.金属学报,1999;35(增刊2):S37) |
[14] | Guo J T.The Deta of GH2901 in the Alloying Element Action and Heat Treatment Study.Shenyang:Institute of Metal Research,Chinese Academy of Sciences,1978,Unpublished(郭建亭.GH2901合金元素作用和热处理制度研究数据.沈阳:中国科学院金属研究所,1978) |
[15] | Sun W R,Guo S R,Lu D Z,Tong B Y,Hu Z Q.In:Hanad S,Zhong Z,Nam S W,Wright R N,eds.,4th Pacific Rim International Conference on Advanced Materials and Processing (PRICM-4),Aramaki Aoba,Sendal,Japan,2001:2719 |
[16] | Hu Z Q,Sun W R,Song H W.Chin Eng Sci,2005; 7(3):17(胡壮麒,孙文儒,宋洪伟.中国工程科学,2005;7(3):17) |
[17] | Guo J T,Yuan C,Huo W Y.GH4413 Study Report of Advanced Gas Turbine.Shenyang:Institute of Metal Research,Chinese Academy of Sciences,2004,Unpublished |
[18] | Guo S R,Lu D Z,Guo J T,Xu Y,Wu X,Ma M S.Acta Metall Sin,1995; 31(Suppl):S130(郭守仁,卢德忠,郭建亭,徐岩,吴晰,马明善.金属学报,1995;31(增刊):S130) |
[19] | Guo J T,Du X K.Acta Metall Sin,2005; 14:1221(郭建亭,杜秀魁.金属学报,2005;14:1221) |
[20] | Wang S H,DuXK,XuHZ,YuCS,GuoJT,Hu Q W.Acta Metall Sin,1995; 31(Suppl):S137(王淑荷,杜秀魁,许惠珍,于长生,郭建亭,胡秋文.金属学报,1995;31(增刊):S137) |
[21] | Institute of Metal Research,Chinese Academy of Sciences,Shanghai No.5 Steel Plant,Harbin 703 Institute.The Investigation of GH2984 Superalloy.Shenyang:Institute of Metal Research,Chinese Academy of Sciences,1991:1(中国科学院金属研究所,冶金工业部上海第五钢铁厂,造船总公司七院703所.GH2984合金研制总结.沈阳:中国科学院金属研究所,1991:1) |
[22] | Hondros E D,Seah M P.In:Cahn R W,ed.,Physical Metallurgy.3rd Ed.,Amsterdam:D.Reidel Publishing Company,1984:855 |
[23] | Deng W,Xiong L Y,Guo J T,Wang S H,Long Q W.Chin Sci Bull,1994; 39:993(邓文,熊良钺,郭建亭,王淑荷,龙期威.科学通报,1994;39:696) |
[24] | Guo J T.Acta Metall Sin,1990; 26:30(郭建亭.金属学报,1990;26:30) |
[25] | Guo J T,Zhang J Y,Fan H M,Ji S C,Bi J.In:Xu Z C,Ma P L,eds.,Effects and Controls of Trace Elements in SuperaUoys.Beijing:Metallurgical Industry Press,1987:379(郭建亭,张金岩,范鹤鸣,纪世辰,毕敬.见:徐志超,马培立编.高温合金中微量元素的作用与控制.北京:冶金工业出版社,1987:379) |
[26] | Guo S R,Lu D Z,Guo J T,Wu X.In:Xu Z C,Ma P L,eds.,Effects and Controls of Trace Elements in Superalloys.Beijing:Metallurgical Industry Press,1987:431(郭守仁,卢德忠,郭建亭,吴晰.见:徐志超,马培立编.高温合金中微量元素的作用与控制.北京:冶金工业出版社,1987:431) |
[27] | Guo S R,Fan H M,Lu D Z.In:Xu Z C,Ma P L,eds.,Effects and Controls of Trace Elements in SuperaUoys.Beijing:Metallugical Industry Press,1987:387(郭守仁,范鹤鸣,卢德忠.见:徐志超,马培立编.高温合金中微量元素的作用与控制.北京:冶金工业出版社,1987:387) |
[28] | Guo J T.Aeta MetaU Sin,1978; 14(4):348(郭建亭.金属学报,1978;14(4):348) |
[29] | Guo J T,Fan H M,Zhang J Y,Ji S C,Bi J,Wang M X.In:Xu Z C,Ma P L,eds.,Effects and Controls of Trace Elements in Superalloys.Beijing:Metallurgical Industry Press,1978:412(郭建亭,范鹤鸣,张金岩,纪世辰,毕敬,王明贤.见:徐志超,马培立编.高温合金中微量元素的作用与控制.北京:冶金工业出版社,1978:412) |
[30] | Sun C,Huang R F,Guo J T,Hu Z Q.High Temp Teehnol,1988; 6:145 |
[31] | Sun W R,Guo S R,Guo J T,Tong B Y,Yang Y S,Sun X F,Guan H R,Hu Z Q.In:pollock T M,Kissinge R D,Bowman R R,Green K A,McLean M,Olson S L,Schirra J J,eds.,SuperaUoys 2000,Pennsylvania:TMS,2000:476 |
[32] | Guo J T,Zhou L Z.In:Kissinger R D,Deye D J,Anton D L,Cetel A D,Nathal M V,Pollock T M,Woodford D A,eds.,Superalloys 1996,Warrendale,Pennsylvania:TMS,1996:451 |
[33] | Yu J J,Sun X H.K4951 Alloy.Shenyang:Institute of Metal Research,Chinese Academy of Sciences,2010,Unpublished(于金江,孙晓峰.K4951合金.沈阳:中国科学院金属研究所.2010) |
[34] | Institute of Aeronautical Materials Beijing,Institute of Metal Research,Chinese Academy of Sciences.Comprehensive Properties Data of K465,Dec.2008,Unpublished (北京航空材料研究院,中国科学院金属研究所.K465合金全面性能数据.2008年12月) |
[35] | Jin Z,Ma S J.M17 Ni Base Superalloy and Cast Hollow Turbine Blade.Shenyang:Institute of Metal Research,Metallurgical Industry Ministry,Jun.1972,Unpublished (金柱,马实基.M17镍基高温合金及铸造空心涡轮叶片.沈阳:冶金工业部金属研究所,1972年6月) |
[36] | Jin Z,Ma S J.Acts Metall Sin,1974; 10(1):12 (金柱,马实基.金属学报,1974;10(1):12) |
[37] | Cook R M,Shaw S W K.Revue Metall,1966; 63:329 |
[38] | Institute of Metal Research,Chinese Academy of Sciences,Xi'an Aeroengine Corp Ltd,170 Works,Instiute of Shenyang Aroengine Desing.Investigation of Six Kinds of High-and Low-Press Turbine Blades for Taihang Engine.Shenyang:Institute of Metal Research,Chinese Academy of Sciences,Sep.2007,Unpublished(中国科学院金属研究所,西安航空发动机(集团)有限公司,第一七○厂,中国航空工业第一集团公司沈阳发动机设计研究所.太行发动机高低压涡轮六种叶片用四种高温合金及工艺研究,沈阳:中国科学院金属研究所,2007年9月) |
[39] | Guo J T,Ranucci D,Picco E,Strocchi P M.MetaU Trans,1983; 14A:2329 |
[40] | Hou J S,Guo J T,Zhou L Z,Qin X Z,Wang Y,Li G S.Proc 11th National Symposium on Superalloys.Beijing:Metallurgical Industry Press,2007:326(侯介山,郭建亭,周兰章,秦学智,王勇,李谷松.第十一届中国高温合金年会论文集.北京:冶金工业出版社,2007:326) |
[41] | Yuan C,Guo J T,Wang S H,Yang H C.J Mater SciTechnol,1998; 14:219 |
[42] | Lupine V,Maldini M,Zhou L Z,Guo J T.Acts Metall Sin (Engl Left),2005; 8:65 |
[43] | Yuan C,Guo J T,Wang T L,Wang S H,Zhang H.Acta Metall Sin,1998; 34:689(袁超,郭建亭,王铁利,王淑荷,张皓.金属学报,1998;34:689) |
[44] | Mukherjee A K,Bird J E.Dorn J E.Trans ASM,1969;62:62 |
[45] | Mishra R S,Singh S P,Srirama M,Pandey M C.Mater Sci Technol,1995; 11:341 |
[46] | Woodford D A,Frawley J J.MetaU Trans,1974; 5:2005 |
[47] | Davies P W.Wilshire B.J Mater Sci,1975; 9:248 |
[48] | Dennison J P,Holmes P D,Wilshire B.Mater Sci Eng,1978; A33:35 |
[49] | Purnshothaman S,Tien J K.Acts MetaU,1978; 26:519 |
[50] | Wuherji D,Cabrisch H,Chen W,Fecht H J,Wahi R P.Acts Metall,1997; 45:3143 |
[51] | Takeuchi S,Argon A S.J Mater Sci,1976; 11:1542 |
[52] | Hausselt J H,Nix W D.Acta MetaU,1977; 25:149 |
[53] | Evans W J,Harrision G F.J Mater Sci,1979; 13:316 |
[54] | Burr H,Dennision J P,Wilshire B.J Mater Sci,1979; 13:295 |
[55] | Yuan C,Guo J T,Yang H C,Wang S H.Scr Metall Mater,1998; 39:991 |
[56] | Wang J K.Frontiers of Modern Chemical Engineering,Metallurgy and Material Technologies.Beijing:Chemical Industry Press,2010:1458(王静康.现代化工,冶金与材料技术前沿.北京:化学工业出版社,2010:1458) |
[57] | Guo J T,Zhou L Z,Yuan C.Comprehensive Properties Data of Five Kinds of Anti-Hot Corrosion Superalloys.Shenyang:Institute of Metal Research,Chinese Academy of Sciences,Oct.2008,Unpublished(郭建亭,周兰章,袁超.五种抗热腐蚀高温合金的全面性能数据.沈阳:中国科学院金属研究所,2008年10月) |
[58] | Yuan C,Guo J T.Turbine Blade Material Study of K445 alloy Used in Heavy-Type Gas Turbine.Shenyang:Institute of Metal Research,Chinese Academy of Sciences,Nov.2005,Unpublished(袁超,郭建亭.重型燃气轮机涡轮工作叶片材料K445合金研制.中国科学院金属研究所,2005年11月) |
[59] | Zhou L Z,Guo J T.Turbine Vane Material Study of K447 Alloy Used in Heavy-Type Gas Turbine.Shenyang:Institute of Metal Research,Chinese Academy of Sciences,Nov.2005,Unpublished(周兰章,郭建亭.重型燃气轮机涡轮导向叶片材料K447合金研制.中国科学院金属研究所,2005年11月) |
[60] | Guo J T.Applied Study of K64O Alloy Revert Materials.Shenyang:Institute of Metal Research,Chinese Academy of Sciences,Jan.2010,Unpublished |
[61] | Qin X Z,Guo J T,Yuan C,Hou J S,Ye H Q.Mater Left,2008; 62:2275 |
[62] | Qin X Z,Guo J T,Yuan C,Hou J S,Ye H Q.Mater Sci Forum,2007; 546-549:1301 |
[63] | Qin X Z,Guo J T,Yuan C,Chen C L,Ye H Q.Metall Mater Trans,2007; 38A:3014 |
[64] | Guo J T,Zhou L Z,Yuan C,Li J T.In:Shi C X,Zhong Z Y,eds.,Fifty Years of Chinese Superalloys.Beijing:Metallagical Industry Press,2006:172(郭建亭,周兰章,袁超,李俊涛.见:师昌绪,仲增墉主编.中国高温合金五十年.北京:冶金工业出版社,2006:172) |
[65] | Lvov C,Levit V I,Kaufman M J.Metall Mater Trans,2004; 35A:1669 |
[66] | Guo J T,Xu J X,An W Y.Acts MetaU Sin,1980; 16:386(郭建亭,徐嘉勋,安万远.金属学报,1980;16:386) |
[67] | Guo J T,Xu J X,An W Y.High Temperature Properties and Microstructure Stability of GH107 Alloy.Shenyang:Institute of Metal Research,Chinese Academy of Sciences,1979,Unpublished(郭建亭,徐嘉勋,安万远.GH107合金的高温性能和组织稳定性的研究.沈阳:中国科学院金属研究所,1979) |
[68] | Rrdavich J F,Couts W H.Trans ASM,1961; 54:591 |
[69] | Wlodek S T.Trans ASM,1965; 57:110 |
[70] | Merrick H F.Metall Trans,1973; 4:885 |
[71] | Oblak J M,Doherty J E,Giamei A F,Kear B H.Metall Trans,1974; 5:1252 |
[72] | Ge Y L,Tong Y J.Acta Metall Sin,1978; 14:448(葛云龙,佟英杰.金属学报,1978; 14:448) |
[73] | Guo J T,Ranucci D,Gherardi F.Metall Trans,1984; 15A:1331 |
[74] | Guo J T,Ranucci D,Picco E,Strochi P M.In:Brunetaud R,Coutsouradis D,Gibbons T B,Lindblom Y,Meadowcroft D B,Stickler R,eds.,High Temp Alloys for GasTurbines.Dordrecht:Reidel Publishing Company,1982:805 |
[75] | Guo J T,Ranucci D,Picco E,Strochi P M.Int J Fatigue,1984; 6:95 |
[76] | Antolovich S D,Liu S,Baur B.Metall Trans,1981; 12A:473 |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%