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Strength of Ternary Blended Cement Concrete Containing Oil… REFERENCES [1.] Adewuyi, A.P., & Ola, B. F. (2005). Application of waterworks sludge as partial replacement for cement in concrete production. Science Focus Journal, 10(1): 123-130. [2.] Agbede, I. O., &Obam, S. O. (2008). Compressive Strength of Rice Husk Ash-Cement Sandcrete Blocks.Global Journal of Engineering Research, Vol. 7 (1), pp. 43-46. [3.] Bakar, B. H. A., Putrajaya, R. C., &Abdulaziz, H. (2010).Malaysian Saw dust ash – Improving the Durability and Corrosion Resistance of Concrete: Pre-review. Concrete Research Letters, 1 (1): 6-13, March 2010. [4.] Cisse, I. K., &Laquerbe, M. (2000).Mechanical characterization of sandcretes with rice husk ash additions: study applied to Senegal. Cement and Concrete Research, 30 (1): p.13– 18. [5.] Cordeiro, G. C., Filho, R. D. T., & Fairbairn, E. D. R. (2009). Use of ultrafine saw dust ash with high-carbon content as pozzolan in high performance concrete. Materials and Structures, 42: 983–992. DOI 10.1617/s11527-008-9437-z. [6.] De Sensale, G. R. (2006). Strength development of concrete with rice-husk ash.Cement &Concrete Composites, 28: 158–160. [7.] Dwivedia, V. N., Singh, N. P., Das, S. S., & Singh, N. B. (2006). A new pozzolanicmaterial for cement industry: Bamboo leaf ash. International Journal of Physical Sciences, 1 (3): 106-111. [8.] Elinwa, A. U., &Abdulkadir, S. (2011). Characterizing Sawdust-ash for Use as an Inhibitor for Reinforcement Corrosion. New Clues in Sciences, 1: 1-10. [9.] Elinwa, A. U., &Awari, A. (2001).Groundnut husk ash concrete.Nigerian Journal of Engineering Management, 2 (1), 8 - 15. [10.] Elinwa, A. U., Ejeh, S. P., &Akpabio, I. O. (2005). Using metakaolin to improve sawdust-ash concrete. Concrete International, 27 (11), 49 - 52. [11.] Elinwa, A. U., Ejeh, S. P., &Mamuda, M. A. (2008). Assessing of the fresh concrete properties of self-compacting concrete containing sawdust ash. Construction and Building Materials Journal, 22: 1178 - 1182. [12.] Fadzil, A. M., Azmi, M. J. M., Hisyam, A. B. B., &Azizi, M. A. K. (2008). Engineering Properties of Ternary Blended Cement Containing Rice Husk Ash and Fly Ash as Partial Cement Replacement Materials.ICCBT, A (10): 125 – 134. [13.] Frıás, M., Villar-Cocinã, E., Sańchez-de-Rojas, M. I., & Valencia-Morales, E. (2005). The effect that different pozzolanic activity methods has on the kinetic constants of the pozzolanic reaction in sugar cane straw-clay ash/lime systems: Application of a kinetic–diffusive model. Cement and Concrete Research, 35: 2137 – 2142. [14.] Habeeb, G. A., &Fayyadh, M. M. (2009).Saw dust ash Concrete: the Effect of SDA Average Particle Size on Mechanical Properties and Drying Shrinkage.Australian Journal of Basic and Applied Sciences, 3(3): 1616-1622. [15.] Malhotra, V. M., & Mehta, P. K. (2004).Pozzolanic and Cementitious Materials. London: Taylor & Francis. [16.] Mehta, P. K. &Pirtz, D. (2000). Use of rice husk ash to reduce temperature in high strength mass concrete. ACI Journal Proceedings, 75:60-63. [17.] Rukzon, S., &Chindaprasirt, P. (2006). Strength of ternary blended cement mortar containing Portland cement, rice husk ash and fly ash.J. Eng. Inst. Thailand, 17: 33-38 (547-551). [18.] Rukzon, S., Chindaprasirt, P., &Mahachai, R. (2009).Effect of grinding on chemical and physical properties of saw dust ash. International Journal of Minerals, Metallurgy and Materials, 16 (2): 242-247. [19.] Sakr, K. (2006). Effects of Silica Fume and Rice Husk Ash on the Properties of Heavy Weight Concrete.Journal of Materials in Civil Engineering, 18(3): 367-376. [20.] Saraswathy, V., & Song, H. (2007).Corrosion performance of rice husk ash blended concrete. Construction and Building Materials, 21 (8): p.1779–1784. [21.] Wada, I., Kawano, T., &Mokotomaeda, N. (2000).Strength properties of concrete incorporating highly reactive rice-husk ash. Transaction of Japan Concrete Institute, 21 (1): p. 57–62. www.<strong>ijcer</strong>online.com ||May ||2013|| Page 68
International Journal of Computational Engineering Research||Vol, 03||Issue, 5|| Ni-Based Cr Alloys and Grain Boundaries Characterization 1 Aezeden Mohamed and 2 Tarek Mohamed 1 (Faculty of Engineering and Applied Science, Memorial University, St. John’s, NF, Canada, A1B 2X3) 2 (Waha Oil Company, Engineering Research Department, Tripoli, Libya,) amohamed@mun.ca . ABSTRACT: Three Ni-base alloys Hastelloy C22, Inconel 600, and Inconel 601 with carbon contents of 0.003, 0.05, and 0.3 wt. % respectively were used to investigate the effect of carbon on the morphology grain boundaries at constant heat treatment. From microstructural characterization and analysis, it was observed that the lowest carbon content resulted in planer character grain boundaries, the carbon content produced wavy grain boundaries and the highest carbon content produced saws-teeth grain boundaries. It is suggested that higher carbon contents result in the formation of occurred grain boundaries due to the formation of M 23 C 6 morphology. Keywords: Boundary, Carbides, Grain, Hastelloy, Inconel, Morphology, Serration, Triangle I. INTRODUCTION Ni-base alloys are widely used in space and marine environments due to their high strength, ductility and corrosion resistance. It is well documented that grain boundary serration occurs by the formation of precipitates along grain boundaries [1–6]. Investigators have found that, grain boundary serrations in stainless steel improve creep and fatigue properties of this alloy [5]. Furthermore, it has been found that in alloys 304 and 316 stainless steels, when grain boundaries are serrated the amount of carbides reduced and carbide precipitate shape changed from triangular to planar which has been proven to improve fatigue properties for those alloys [7]. In other studies [8,9] it was found that grain boundary serration occurs before carbides are precipitated on the grain boundaries. These studies also claim that when precipitation of carbides eventually occurs, planar carbides form along serrated boundaries while triangular carbides form along the unserrated boundaries. This contradicts previous reports that claim that grain boundary serration is due to precipitation of phases in the grain boundary serration. It has been found that the phase precipitated on grain boundaries in stainless steels are M 23 C 6 type carbides [10-17]. Therefore, the main purpose of this study is to investigate the effect of carbon content on the morphology of grain boundary serration. Figure 1Model shows grain boundary serration formation in stainless steel due to M 23 C 6 precipitation, (a-a) grain boundary prior to formation of M 23 C 6 ; (b-b), (c-c) serrated grain boundary after formation of M 23 C 6 [10]. II. EXPERIMENTAL PROCEDURE In order to investigate morphology of grain boundary serration in three kinds of Ni-base alloys are Hastelloy C22, Inconel 600, and Inconel 601, specimens were all solution heat treated at 1000C for 1 hour followed by air cooling. Specimens were investigated under constant conditions using scanning electron microscopy and energy dispersive spectroscopy SEM-EDS. www.<strong>ijcer</strong>online.com ||May ||2013|| Page 69
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