{"title":"Effect of Composition on Work Hardening Coefficient of Bismuth-Lead Binary Alloy","authors":"K. A. Mistry, I. B. Patel, A. H. Prajapati","volume":98,"journal":"International Journal of Materials and Metallurgical Engineering","pagesStart":308,"pagesEnd":312,"ISSN":"1307-6892","URL":"https:\/\/publications.waset.org\/pdf\/10000534","abstract":"
In the present work, the alloy of Bismuth-lead is
\r\nprepared on the basis of percentage of molecular weight 9:1, 5:5 and
\r\n1:9 ratios and grown by Zone- Refining Technique under a vacuum
\r\natmosphere. The EDAX of these samples are done and the results are
\r\nreported. Micro hardness test has been used as an alternative test for
\r\nmeasuring material’s tensile properties. The effect of temperature and
\r\nload on the hardness of the grown alloy has been studied. Further the
\r\ncomparative studies of work hardening coefficients are reported.<\/p>\r\n","references":"[1] Mustafa Kamal, Maher El-Tonsy, Abu Bakr El- Bediwi, Eman Kashita\r\n\u201cStructural and Physical Properties of Rapidly Solidified Lead -Bismuth\r\nEutectic alloy\u201d, phys. stat. sol. (a) 201, No. 9, 2029-2034, 2004.\r\n[2] Rizk Mostafa Shalaby, \u201cCharacteristics Study on Bi-Pb Based Alloys\r\nQuenched from Melt\u201d, J. Mater. Sci. Technol., Vol. 25, No. 4, (2009).\r\n[3] Mustafa Kamal, Said Mazen, Abu Bakr El- Bediwi, Eman Kashita ,\u201c\r\nCharacterization of bismuth-tin-lead and bismuth-tin-lead- cadmium\r\nfusible alloys\u201d ;Radiation Effect & Defects in Solids, Vol. 160, No. 8,\r\npp. 369- 375, 2005\r\n[4] Pandya G.R., Bhavsar S.R. and Desai C.F., \u201cTemperature Dependence\r\nof Vickers Microhardness and Creep Study of Inx Bi2\u2212x Te3 Crystals\u201d,\r\nTurk J Phy., 2000, 24, 13 - 19.\r\n[5] Adiyodi, A.K., Joseph, X., Jyothy, P.V., Jose, G., Unnikrishnan, N.V.,\r\n\u201cDielectric and Microhardness Studies of Methylene Blue Doped\r\nPMMA Matrix\u201d, Materials Science-Poland, Vol. 27, No.1, 297-\r\n305,2009.\r\n[6] Shah N., Singh D., Shah S.Qureshi A., Singh N. L and Singh K. P.,\r\n\u201cStudies of micro hardness and electrical properties of proton irradiated\r\npolyethersulfone (PES)\u201d,Bull. Mater. Sci., 2007, 30(5) 477\u2013480.\r\n[7] Ambujam K., Selvakumar S., Prem Anand D., Mohamed G. and\r\nSagayaraj P., \u201cCrystal growth, optical, mechanical and electrical\r\nproperties of organic NLO material \u03b3-glycine\u201d Cryst. Res. Technol.\r\n2006, 41(7), 671 \u2013 677.\r\n[8] Ushashree P.M. and Jayavel R. \u201cGrowth and micro-morphology of asgrown\r\nand etched bis(thiourea) cadmium chloride (BTCC) single\r\ncrystals\u201d, Opt. Mat, 2002, 21, 599.\r\n[9] Pricilla Jeyakumari, J. Ramajothi, S.Dhanuskodi, \u201cStructural and\r\nMicrohardness Study of Bis(Thiourea) Cadmium Chloride\u201d J.Crystal\r\nGrowth 269 (2004) 558-564.\r\n[10] M.R. Akbarpour, A. Ekrami, \u201c Effect of ferrite volume fraction on work\r\nhardening behavior of high bainite dual phase (DP) steels\u201d,Mater. Sci.\r\nEng. 477A (2008) 306.","publisher":"World Academy of Science, Engineering and Technology","index":"Open Science Index 98, 2015"}