Effects Of Inoculants Ti And Zr On The Microstructures And Properties Of 2219 Al--Cu Alloy Welds

Acta Metall Sin

2005, Vol. 41

Issue (4): 397-400 DOI:

Research Articles

Current Issue | Archive | Adv Search

Effects Of Inoculants Ti And Zr On The Microstructures And Properties Of 2219 Al--Cu Alloy Welds

GUO Xuming; YANG Chenggang; QIAN Bainian; XU Qiang; ZHANG Hongyan

Institute of Metal Research; The Chinese Academy of Sciences; Shenyang 110016

Cite this article:

GUO Xuming; YANG Chenggang; QIAN Bainian; XU Qiang; ZHANG Hongyan. Effects Of Inoculants Ti And Zr On The Microstructures And Properties Of 2219 Al--Cu Alloy Welds. Acta Metall Sin, 2005, 41(4): 397-400 .

Download:

PDF(445KB)
Export: BibTeX | EndNote (RIS)

Abstract The microstructure and toughness of the coarse--grained heat-affected zone (CGHAZ) in laser welding of RPC (relaxation--precipitation controlling transformation) steel were investigated by thermal simulation with a Gleeble-1500 thermal simulator. The influence of the time cooled from 800-500℃, t8/5 (0.3-30 s), on the microstructure of CGHAZ and the low temperature toughness were discussed. The experimental results indicate that the granular bainite is the dominate microstructure of the CGHAZ in laser welding of RPC steel, and the impact energy of the CGHAZ is much higher than that of base metal when t8/5 is between 3 s and 8 s. Considering the effect of the size, volume, number and shape of the M-A constituent on the toughness, a toughness factor of the M-A constituent is defined. As the toughness factor increases, the toughness of the granular bainite increases. The varied trend of the impact toughness with t8/5 is mainly determined by the toughness factor of the M-A constituent.

Key words: ultra-fine low alloy steel coarse-grained heat-affected zone

Received: 15 June 2004

ZTFLH:	TG142.2
	TG401

	Service

	E-mail this article
	Add to citation manager
	E-mail Alert
	RSS
	（）
	Articles by authors
	GUO Xuming
	YANG Chenggang
	QIAN Bainian
	XU Qiang
	ZHANG Hongyan

URL:

https://www.ams.org.cn/EN/ OR https://www.ams.org.cn/EN/Y2005/V41/I4/397

[1]Chinese Welding Society. Welding Handbook (Vol 2). Beijing: China Machine Press, 2001: 520 (中国焊接学会编.焊接手册(第二卷).北京:机械工业出版社, 2001:520)
[2]Janaki Ram G D, Mitra T K, Olson D L. Mater Sci Eng, 2000; 276A: 48
[3]Murty B S, Kori S A, Chakraborty M. Int Mater Rev, 2002; 47(1): 3
[4]Ganaha T, Pearce B P, Kerr H W. Metall Trans, 1980; 11A: 1351
[5]Mousavi M G, Cross C E, Grong (?). Sci Technol Weld Join, 1999; 4(6): 381
[6]Yunjia H, Frost R H, Olson D L, Edwards G R. Weld J, 1989; 68(7): 280s
[7]Norman A F, Hyde K, Costello F, Thompson S, Birley S, Prangnell P B. Mater Sci Eng, 2003; A354: 188
[8]Guo X M, Yang C G, Qian B N, Chang Y L, Zhang H Y. Trans Chin Welding Inst, 2004; 25(4): 5 (国旭明,杨成刚,钱百年,常云龙,张洪延.焊接学报,2004; 25(4):5)
[9]Yunjia H, Dalu G, Zhixiong S. Conference on Proceedings of the Aluminum-Lithium Ⅲ. 1986; 1215
[10]Reddy G M, Gokhale A A, Prasad K S, Prasad Rao K. Sci Technol Weld Join, 1998; 3(4): 208
[11]Kou S, Le Y. Weld J, 1986; 65(12): 305s
[12]Dvornak M J, Frost R H, Olson D L. Weld J, 1989; 68(10): 327s

[1]	ZHAO Lin; ZHANG Xudong; CHEN Wuzhu. Toughness Of Heat--Affected Zone Of 800 MPa Grade Low Alloy Steel[J]. 金属学报, 2005, 41(4): 392-396 .

No Suggested Reading articles found!

Viewed

Full text

Abstract

Cited

Shared

Discussed