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Studies on the Microstructure Modification and Tribological Characteristics of Cast Al-Si Eutectic Alloys | ||
| Journal of Environmental Friendly Materials | ||
| دوره 5، شماره 2 - شماره پیاپی 10، اسفند 2021، صفحه 27-33 اصل مقاله (652.29 K) | ||
| نوع مقاله: Original Article | ||
| نویسندگان | ||
| V Abouei Mehrizi1؛ O Bayati2 | ||
| 1Advanced Materials Engineering Research Center, Karaj Branch, Islamic Azad University, Karaj, Iran | ||
| 2Department of Metallurgy and Materials Engineering, Hamedan University of Technology, Hamedan, Iran | ||
| چکیده | ||
| The focused of this investigation is on the modification of Fe-rich intermetallics morphology and wear and friction properties of eutectic Al-Si alloys. Eutectic Al-Si specimens were fabricated by tilt casting technique after addition of different amounts of iron and manganese to the melt alloy. Dry sliding tribological behavior of the samples were investigated using a reciprocating wear tester at the room temperature in atmospheric environment. It is found that the addition of iron up to 1.5 wt.pct to the alloy decreased the wear resistance of alloy owing to the formation of brittle plate-like β-Al5FeSi intermetallic compounds. As Manganese is added to the β-containing alloy up to the half of iron content (corresponding to a Mn/Fe ratio of 0.5), the platelet phases are completely replaced by the star-like α-Al15(Fe,Mn)3Si2 intermetallics resulting in improved wear resistance of the alloy. Introducing 0.8 wt.pct Mn to the alloy containing 1.6 wt.pct Fe did not convert the plate-like beta intermetallics to the modified alpha compounds completely and had no impressive impact on the wear rate of the alloy. | ||
| کلیدواژهها | ||
| Eutectic Aluminum-Silicon Alloys؛ Intermetallic Morphologies؛ Mn Modifier؛ Friction Coefficient | ||
| مراجع | ||
|
[1] J. Clarke and A. D. Sarkar, J. Wear, 54:, 1979, 7.
[2] A. D. Sarkar, J. Wear, 31:, 1975, 331.
[3] D. K. Dwivedi, SHARMA Ashok and T. V. Rajan, J. Trans. Indian Inst. Met.., 54(6):, 2001, 247.
[4] S. A. Kori, B. S. Murty and M. Chakraborty, J. Mater. Sci. Eng., A, 280:, 2000, 94.
[5] M. M. Haque and A. Sharif, J. Mater. Process. Technol., 118:, 2001, 69.
[6] M. Katsuta, K. Oodoshi and S. Kohara, (ICAA-6) (1998), 1945.
[7] N. Saheb, T. Laout, A. R. Daud, M. Harun, S. Radiman and R. Yahaya, J. Wear, 249:, 2001, 656.
[8] J. E. Gruzleski and B. M. Closet, The treatment of liquid aluminium-silicon alloys [M]. Illinois: AFS, 1990.
[9] S. D. Henry, Friction, Lubrication, and Wear Technology ASM Handbook vol. 18 [M]. Met. Park (Ohio): ASM, 1992.
[10] M. Huran, I. A. Talib, A. R. Daud, J. Wear, 194:, 1996, 54.
[11] L. Lasa and J. M. Rodriguez-Ibabe, J. Scr. Mater., 46:, 2002, 477.
[12] F. Cardarelli, Materials Handbook, Common Nonferrous Metals. [M]. New York: Springer, 159.
[13] H. Ye, J. Mater. Eng. Perform., 12:, 2003, 288.
[14] L. G. Hou, H. Cui, Y. H. Cai and J. S. Zhang, J. Mater. Sci. Eng. A, 527:, 2009, 85.
[15] M. Sha, Sh. Wu, X. Wang, L. Wan and P. An, J. Mater. Sci. Eng. A, 535:, 2012, 258.
[16] W. Yuying, L. Xiangfa and B. Xiufang, J. Mater. Charact., 58:, 2007, 205.
[17] J. C. Walker, J. Murray, S. Narania and A. T. Clare, J. Tribol. Lett., 45:, 2012, 49.
[18] C. L. Xu, Y. F. Yang, H. Y. Wang and Q. C. Jian, J. Mater. Sci., 42:, 2007, 6331.
[19] R. Taghiabadi, H. M. Ghasemi and S. G. Shabestari, J. Mater. Sci. Eng. A, 490:, 2008, 162.
[20] B. Dutta, M. Rettenmayr, J. Mater. Sci. Eng. A, 283:, 2000, 218.
[21] S. G. Shabestari and J. E. Gruzleski, J. AFS Trans., 26:, 1995, 285.
[22] S. G. Shabestari, J. Mater. Sci. Eng. A, 383:, 2004, 289.
[23] C. Bidmeshki, V. Abouei, H. Saghafian, S. G. Shabestari and M. T. Noghani, J. Mater. Res. Technol., 5, 3, 2015, 250.
[24] M. S. Probhudev, V. Auradi, K. Venkateswarlu, N. H. Siddalingswamy and S. A. Kori, C Process. Eng. 97:, 2014, 1361.
[25] R. S. Rana, RAJESH Purohit and S. Das, Rev. Int. J. Sci. Res. Publ., 2:, 2012, 1.
[26] W. Yuying, L. Xiangfa, B. Xiufang, J. Mater. Charact., 58:, 2007, 205.
[27] B. Kulunk, S. G. Shabestari, J. E. Gruzleski and D. J. Zuliani, J. AFS Trans., 170:, 1996, 1189.
[28] M. Sha, S. H. Wu, X. Wang, L. Wan and P. J. An, Mater. Sci. Eng. A, 535:, 2012, 258.
[29] A. Hekmat-Ardakan, F. Ajersch and X-G. Chen, J. Mater. Sci., 46:, 2011, 2370.
[30] X. F. WU, G. A. Zhang, J. Mater. Sci., 46:, 2011, 7319.
[31] A. M. Samuel, F. H. Samuel and H. W. DOTY, J. Mater. Sci., 31:, 1996, 5529.
[32] M. Tash, F. H. Samuel, F. Mucciardi and H. W. Doty, J. Mater. Sci. Eng. A, 443:, 2007,185.
[33] M. Warmuzek, W. Ratuszek and G. Sek-Sas, J. Mater. Charact., 54:, 2005, 31.
[34] C-L. Chen, R. C. Thomson, J. Intermetallics, 18:, 2010, 1750.
[35] L. F. Mondolfo, Aluminum alloys: structure and properties M. London: Butterworth, 1978.
[36] V. Abouei, H. Saghafian, SH. Kheirandish, J. Wear, 262, 2007, 1225.
[37] C. Bidmeshki, A. Shokuhfar and V. Abouei, J. Metall. Res. Technol., 113, 2015, 203.
[38] N. A. Belov and A. A. Aksenov, Iron in Aluminum Alloys: impurity and alloying element New York: Taylor and Francis, 2002.
[39] M. H. Mulazimoglu, A. Zaluska, J. E. Gruzleski and F. Paray, J. Met. Mater. Trans., 1996, 27A: 929.
[40] P. Ashtari, H. Tezuka and T. Sato, J. Mater. Trans., 44, 2003, 2611.
[41] T. O. Mbuya T O, B. O. Odera and S. P. Nganga, Rev. Int. J. Cast Met. Res., 16, 2003, 1.
[42] K. Laden, J. D. Gu’erin, M. Watremez and J. P. Bricout, J. Tribol. Lett., 8, 2000, 237.
[43] S. Soleymani, A. Abdollah-Zadeh and S. AhmadAlidokht, J. Surf. Eng. Mater. Adv. Technol., 1, 2011, 95. | ||
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