Browse > Article
http://dx.doi.org/10.7777/jkfs.2012.32.1.050

Effect of Heat Treatment on the Formation Behavior of Intermetallic Compound Layer in Fusion Bonding of Cast Iron and Al Alloy  

Kang, Sung-Min (Dept. of MASE, Dong-A University)
Han, Kwang-Sik (Dept. of MASE, Dong-A University)
Kang, Yong-Joo (Dept. of MASE, Dong-A University)
Kim, Kwang-Won (Dept. of MASE, Dong-A University)
Im, Ye-Ra (Dept. of MASE, Dong-A University)
Moon, Ji-Sun (Dept. of MASE, Dong-A University)
Son, Kwang-Suk (Dept. of MASE, Dong-A University)
Kim, Dong-Gyu (Dept. of MASE, Dong-A University)
Publication Information
Journal of Korea Foundry Society / v.32, no.1, 2012 , pp. 50-56 More about this Journal
Abstract
Fusion bonding of cast iron and Al alloy is an effective way to improve the properties such as low inertia, high efficiency and corrosion resistance in machinery parts. In case of fusion bonding, intermetallic compound layers are formed at the interface between cast iron and Al alloy interface. It is important to control the intermetallic compound layers for improving bonding strength. The formation behavior of intermetallic compound layer by heat treatment has been investigated. Heat treatment was performed at temperature from $600^{\circ}C$ to $800^{\circ}C$ with $100^{\circ}C$ interval for an hour to investigate the phase transformation during heat treatment. Heat treated specimens were analyzed by using FE-SEM, EPMA and EDS. The EPMA/WDS results revealed that various phases were formed at the interface, which exhibited 4 distinct intermetallic compound layers such as ${\tau}_6-Al_{4.5}FeSi$, ${\tau}_2-Al_3FeSi$, ${\tau}_{11}-Al_5Fe_2Si $and ${\eta}-Al_5Fe_2$. Also, fine precipitation of ${\tau}_1-Al_2Fe_3Si_3$ phase was formed between ${\tau}_{11}$ and ${\eta}$ layer. The phase fraction in intermetallic compound layer was changed by heat treatment temperature. At $600^{\circ}C$, intermetallic compound layer of ${\tau}_6$ phase was mainly formed with increasing heat treatment time. With increasing heat treatment temperature to $800^{\circ}C$, however, ${\tau}_2$ phase was mainly distributed in intermetallic compound layer. ${\tau}_1$ phase was remarkably decreased with increasing heat treatment time and temperature.
Keywords
Intermetallics; Bonding; Phase transformation; Cast iron; Al alloy; Heat treatment;
Citations & Related Records
Times Cited By KSCI : 2  (Citation Analysis)
연도 인용수 순위
1 S. Kobayashi and T. Yakou : Mater. Sci. Eng. A, "Control of intermetallic compound layers at interface between steel and aluminum by diffusion-treatment", 338 (2002) 44-53   DOI   ScienceOn
2 S. Kobayashi and T. Yakou : Mater. Sci. Eng. A, "Control of intermetallic compound layers at interface between steel and aluminum by diffusion-treatment", 338 (2002) 44-53   DOI   ScienceOn
3 N. Krendelsberger, F. Weitzer and J. C.Schuster : Metall. Mater. Trans. A, "On the Reaction Scheme and Liquidus Surface in the Ternary System Al-Fe-Si", 38A (2007) 1681-1691
4 N. A. El-Mahallawy, M. A. Taha, M. A. Shady, A. R. El-Sissi, A. N. Attia and W. Reif : Mater. Sci. Tech., "Analysis of coating layer formed on steel strips during aluminizing by Hot dipping in Al-Si baths", 13 (1997) 832-839   DOI   ScienceOn
5 W. J. Cheng and C. J. Wang : Mater. Charact., "Observation of high-temperautre phase transformation in the Si-modified aluminide coating on mild steel using EBSD", 61 (2010) 467- 473   DOI   ScienceOn
6 R. W. Richards, R. D. Jones, P. D. Clements and H. Clarke : Int. Mater. Rev., "Metallurgy of continuous hot dip aluminizing", 39 (1994) 191-212   DOI   ScienceOn
7 H. Springer, A. Kostka, E. J. Payton, D. Raabe, A. Kaysser- Pyzalla and G. Eggeler : Acta mater., "On the formation and growth of intermetallic phases during interdiffusion between low-carbon steel and aluminum alloys", 59 (2011) 1586-1600   DOI   ScienceOn
8 S. P. Gupta : Mater. Charact., "Intermetallic compound formation in Fe-Al-Si ternary system: Part I", 49 (2002) 269-291   DOI   ScienceOn
9 T. Maitra and S. P. Gupta : Mater. Charact., "Intermetallic compound formation in Fe-Al-Si ternary system:Part II", 49 (2002) 293-311   DOI   ScienceOn
10 Y. Du, J. C. Schuster, Z. K. Liu, R. Hu, P. Nash, W. Sun, W. Zhang, J. Wang, L. Zhang, C. Tang, Z. Zhu, S. Liu, Y. Ouyang, W. Zhang and N. Krendelsberger : Intermetallics. "A thermodynamic description of the Al-Fe-Si system over the whole composition and temperature ranges via a hybrid approach of CALPHAD and key experiments", 16 (2008) 554-570   DOI   ScienceOn
11 B. Dutta and M. Rettenmayr, Mater. Sci. Eng. A : "Effect of cooling rate on the solidification behaviour of Al-Fe-Si alloys", 283 (2000) 218-224   DOI   ScienceOn
12 C. H. Kim, D. H. Joo, M. H. Kim, E. P. Yoon, W. Y. Yoon and K. H. Kim : J. of KFS "Effect of Si Particle Size on the Thermal Properties of Hyper-eutectic Al-Si Alloys", 23 (2003) 195-203   과학기술학회마을
13 S. M. Kang, K. S. Han, K. W. Kim, Y. J. Kang, K. S. Son and D. G. Kim : ISIJ International., "Formation Behavior of an Intermetallic Compound Layer during the Hot Dip Aluminizing of Cast Iron", ISIJ Int'l, accepted
14 K. S. Han, Y. J. Kang, M. S. Kang, S. M. Kang, J. S. Kim, K. S. Son and D. G. Kim : J. of KFS "Behavior of Graphite and Formation of Intermetallic Compound Layer in Hot Dip Aluminizing of Cast Iron", 31 (2011) 66-70   과학기술학회마을   DOI   ScienceOn