Sciences in Cold and Arid Regions ›› 2015, Vol. 7 ›› Issue (5): 619-625.doi: 10.3724/SP.J.1226.2015.00619
• ARTICLES • Previous Articles
Gokhan Baykal
Arslan H, 2003. The effect of grain crushing on the behavior of granular materials. M.Sc. Thesis, Bogaziçi University, Istanbul. Arslan H, Baykal G, 2006a. Utilization of fly ash as engineering pelllet aggregates. Environmental Geology, 50: 761-770. DOI: 10.1007/s00254-006-0248-7. Arslan H, Baykal G, 2006b. Analyzing the crushing of granular materials by sound analysis technique. ASTM, Journal of Testing and Evaluation, 34(6): 464-470. DOI: 10.1520/JTE100032. Arslan H, Baykal G, Sture S, 2009. Analysis of the influence of crushing on the behavior of granular materials under shear. Granular Matter, 11: 87-97. DOI: 10.1007/s10035-009-0127-5. Baykal G, 1995. Strength improvement of fly ash using ice. 11th International Symposium on Coal Ash Use and Management. American Coal Association & Energy Production Research Institute, Orlando, FL, Vol. 2, pp. 67-71. Baykal G, 1996. Compacted fly ash-ice for low cost housing projects. XXIV IAHS World Housing Congress, May 27-June 1, Ankara, Vol. 2, pp. 644-651 (International Journal for Housing Science and Its Applications, Vol. 22, 1996). Baykal G, 2013. Mechanics of manufactured soil using powder wastes. Proceedings of 16th International Conference of Soil Mechanics and Geotechnical Engineering, Paris. Baykal G, Döven AG, 2000. Utilization of fly ash by pelletization process: Theory application areas and research results. Resources Conservation and Recycling Journal, 30: 59-77. DOI: 10.1016/S0921-3449(00)00042-2. Baykal G, Edincliler A, Saygılı A, 2004. Highway embankment construction using fly ash in cold regions. Resources, Conservation and Recycling, 42(3): 209-222. DOI: 10.1016/j.resconrec.2004.04.002. Baykal G, Erdurak MC, 2011. Artificial sand production for geotechnical uses. Proceedings of Advances in Ground Technology and Geo Information IS-AGTG, December 1-2, Singapore. Baykal G, Mehmetoglu D, 1997. Utilization of fly ash as highway safety barriers. Twelfth International Symposium on Management & Use of Coal Combustion Byproducts (CCBs), January 26-30, Orlando, FL. Baykal G, Saygılı A, 2011. A new technique to reduce the radioactivity of fly ash utilized in the construction industry. Fuel, 90: 1612-1617. DOI: 10.1016/j.fuel.2011.01.006. Baykal G, Saygılı A, 2012. A new technique to improve freeze thaw durability of fly ash. Fuel, 102: 221-226. DOI: 10.1016/j.fuel.2012.06.041. Danyıldız E, 2007. The interface behavior between granular soils and concrete. M.Sc. thesis, Bogaziçi University, Istanbul. Danyıldız E, Baykal G, 2008. Use of manufactured pellet aggregates to study the effect of aggregate crushing on strength and deformation behavior at the concrete-soil interface. In: Frost D (ed.). Characterization and Behavior of Interfaces. Amsterdam: IOS Press, pp. 139-147. Döven AG, 1998. Lightweight fly ash aggregate production using cold bonding technique. Ph.D. dissertation, Bogaziçi University, Istanbul. Erdurak MC, 2011. Artificial sand production for laboratory uses. M.Sc. thesis, Bogaziçi University, Istanbul. Mehmetoğlu D, 1994. Utilization of fly ash as highway safety barriers. M.Sc. thesis, Bogaziçi University, Istanbul. Nishikawa J, 1999. Fundamental Experiments on Earthwork in Winter. Report: Civil Engineering Research Institute of Hokkaido, Japan. Ramadan K, 1995. Composite and aggregate production using high calcium fly ash. Ph.D. dissertation, Bogaziçi University, Istanbul. Saygılı A, 2008. Highway embankment construction using fly ash and snow in cold regions. Ph.D. disseration, Department of Civil Engineering, Bogaziçi University, Istanbul. Saygılı A, Baykal G, 2011. A new method for improving the thermal insulation properties of fly ash. Energy and Buildings, 43(11): 3236-3242. DOI: 10.1016/j.enbuild.2011.08.024. |
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