OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

材料工程 2007

高合金超高强度钢的发展

, PP. 61-65

李杰,李志,颜鸣皋

Keywords: 高合金超高强度钢,强化机制,发展

Full-Text Cite this paper Add to My Lib

Abstract:

超高强度钢是在普通合金结构钢的基础上发展起来的一种超高强度、高韧性合金钢,在现代工业中占有重要地位,在航空、航天部门也被广泛使用。本文介绍了超高强度钢,特别是高合金超高强度钢的发展和应用情况,指出了现今在这一领域的研究热点。

References

[1]	HEMPHILL R M,WERT D E.High strength,high fracture toughness structural alloy[P].USA Patent:5,087,415,1992.
[2]	HONEYCOMBE R W K.Structure and strength of alloy steel[M].London:Climax Molybdenum Co Ltd,1974.
[3]	IRANI J J,HONEYCOMBE R W K.Clustering and precipitation in iron-molybdenum-carbon alloys[J].J Iron Steel Inst,1965,203(8):826-833.
[4]	VILLARS P,CALVERT L D.Person's handbook of crystallographic data for intermetallic phases[M].Ohio:Metals Park,1986.
[5]	赵振业.钢的强韧化理论:合金钢设计[M].北京:国防工业出版社,1999.
[6]	李志,赵振业.AerMet100钢的研究与发展[J].航空材料学报,2006,26(3):265-270.
[7]	WAUDBY P E.Rare earth additions to steel[J].International Metal Reviews,1978,(2):74-98.
[8]	杜挺,韩其勇,王常珍.稀土碱土等多元素的物理化学及在材料中的应用[M].北京:科学出版社,1995.
[9]	余宗森.稀土在钢铁中的应用[M].北京:冶金工业出版社,1987.
[10]	中国航空材料手册编辑委员会.中国航空材料手册——结构钢,不锈钢[M].北京:中国标准出版社,1988.
[11]	GARRISON W M.Ultrahigh-strength steel for aerospace applications[J].JOM,1990,5:20-24.
[12]	航空制造工程手册总编委会.航空制造工程手册:热处理[M].北京:航空工业出版社,1993.
[13]	MAGEE A,DUMONT J,COUTSOURADIS D,et al.Cobalt-containing high strength steels[M].Brussels:Centre d'Information du Cobalt,1974.1-18.
[14]	DABKOWSKI D S.Nickel,cobalt,chromium steel[P].USA Patent:3,502,462,1970.
[15]	SPEICH G R,DABKOWSKI D S,PORTER L F.Strength and toughness of Fe-10Ni alloys containing C,Co,Mo,and Cr[J].Metall Trans,1973,4(1):303-315.
[16]	LEE E W.Al-Li alloys and ultrahigh-strength steels for U.S.Navy aircraft[J].JOM,1990,42(5):11-14.
[17]	LITTLE C D,MACHMEIER P M.High strength fracture resistant weldable steels[P].USA Patent:4,076,525,1978.
[18]	GARRISON W M JR,MOODY N R.The influence of inclusion spacing and microstructure on the fracture toughness of the secondary hardening steel AF1410[J].Metall Trans,1987,18A(7):1257-1265.
[19]	AMS 6532,steel,bars and forgings 3.1Cr-11.5Ni-13.5Co-1.2Mo(0.21-0.25C)vacuum melted,annealed[S].
[20]	BHAT M S,GARRISON W M JR,ZACKAY V F.Relations between microstructure and mechanical properties in secondary hardening steels[J].Mat Sci Eng,1979,41(1):1-15.
[21]	COHEN M,KOH P K.The tempering of high speed steel[J].Trans ASM,1939,27(4):1015-1016.
[22]	DYSON D J,KEOWN S R,RAYNOR D,et al.The orientation relationship and growth direction of Mo2C in ferrite[J].Acta Metallurgica,1966,14(7):867-875.
[23]	JACK D H,JACK K H.Invited review:carbides and nitrides in steel[J].Mater Sci and Eng'g,1973,11(1):1-27.
[24]	YAN M G,LIU C M.Fatigue and fracture of metal[M].Shanghai:Shanghai Science and Technology Press(in Chinese),1983.
[25]	MORIKAWA H,KOMATSU H,TANINO M.Effect of chromium upon coherency between M2C precipitates and α-iron matrix in 0.1C-10Ni-8Co-1Mo-Cr steels[J].Jap J Elect Micro,1973,22(1):99-101.
[26]	OLSON G B,KINKUS T J,MOATGOMERY J S.APFIM study of multicomponent M2C carbide precipitation in AF1410 steel[J].Surf Sci,1991,246(1):238-245.
[27]	AYER R,MACHNEIER P M.Transmission electron microscopy examination of harding and toughening phenomena in AerMet100[J].Metall Trans,1993,24A(9):1943-1955.
[28]	YOO C H,LEE H M,CHAN J W,et al.M2C precipitates in isothermal tempering of high Co-Ni secondary hardening steel[J].Metallurgical and Materials Transactions,1996,27A(11):3466-3472.
[29]	AYER R,MACHMEIER P M.On the characteristics of M2C carbides in the peak hardening regime of AerMet100 steel[J].Metallurgical and Materials Transactions,1998,29A(3):903-905.
[30]	GHOSH G,CAMPBELL C E,OLSON G B.An analytical electron microscopy study of paraequilibrium cementite precipitation in ultra-high-strength steel[J].Metall Trans,1999,30A(11):501-512.
[31]	赵振业.超高强度钢中二次硬化现象研究[J].航空材料学报,2002,22(4):46-55.
[32]	杜挺.杜挺科技文集[M].北京:冶金工业出版社,1996.

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133