{"id":10,"date":"2014-01-12T15:15:36","date_gmt":"2014-01-12T15:15:36","guid":{"rendered":"http:\/\/blog.metu.edu.tr\/sinante\/?page_id=10"},"modified":"2025-01-15T09:36:22","modified_gmt":"2025-01-15T09:36:22","slug":"10-2","status":"publish","type":"page","link":"https:\/\/blog.metu.edu.tr\/sinante\/10-2\/","title":{"rendered":"Publications"},"content":{"rendered":"

Refereed Journal Publications<\/strong><\/p>\n

    \n
  1. B.A. Bilginer, S.T. Erdo\u011fan (2025) <\/em>Enhancing magnesium oxalate cements with copper slag and silica fume. <\/a>Construction and Building Materials 452, 138999<\/li>\n
  2. S.B. Bilmez, S.T. Erdo\u011fan (2024) <\/em>Improving the Sustainability of Magnesium Oxalate Cements Using Clay and Calcium Sulfoaluminate Clinker. <\/a>\u00a0Journal of Materials in Civil Engineering (accepted).<\/li>\n
  3. M. Atasever, S.T. Erdo\u011fan (2024) <\/em>Effects of clay type and component fineness on the hydration and properties of limestone calcined clay cement. <\/a>Materials and Structures 57 (8), 183. https:\/\/doi.org\/10.1617\/s11527-024-02461-4<\/em><\/li>\n
  4. M. Atasever, S.T. Erdo\u011fan (2024) <\/em><\/em>Characterization of Limestone Calcined Clay Cement Made with Calcium Sulfoaluminate Clinker.<\/a> International Journal of Civil Engineering, 1-13. https:\/\/doi.org\/10.1007\/s40999-024-01009-5<\/li>\n
  5. B.A. Bilginer, S.T. Erdo\u011fan (2023) <\/em><\/em>Development of magnesium\/calcium oxalate cements<\/a>. Materiales de Construcci\u00f3n 73 (350). https:\/\/doi.org\/10.3989\/mc.2023.298122<\/em><\/li>\n
  6. S.T. Erdo\u011fan, B.A. Bilginer, O. Canbek (2022) <\/em><\/em>Preparation and characterization of magnesium oxalate cement<\/a>. Engrxiv preprint. https:\/\/doi.org\/10.31224\/2298<\/em><\/li>\n
  7. B.A. Bilginer, S.T. Erdo\u011fan <\/em>(2021) Effect of Mixture Proportioning on the Strength and Mineralogy of Magnesium Phosphate Cements. Construction and Building Materials 277, 122264.<\/li>\n
  8. K. \u015eeng\u00fcl, S.T. Erdo\u011fan <\/em>(2021) Influence of Ground Perlite on the Hydration and Strength Development of Calcium Aluminate Cement Mortars<\/a>. Construction and Building Materials 266, Part A, 120943.<\/li>\n
  9. S. Shakouri, \u00d6. Bayer, S.T. Erdo\u011fan (2020) <\/em>Development of Silica Fume-based Geopolymer Foams<\/a>. Construction and Building Materials 260, 120442.<\/li>\n
  10. O. Canbek, S.T. Erdo\u011fan (2020) <\/em>Influence of Production Parameters on Calcium Sulfoaluminate Cements<\/a>. Construction and Building Materials 239, 117866.<\/li>\n
  11. O. Canbek, S. Shakouri, S.T. Erdo\u011fan (2020) <\/em>Laboratory Production of Calcium Sulfoaluminate Cements with High Industrial Waste Content<\/a>. Cement and Concrete Composites 106, 103475.<\/li>\n
  12. B.A. Bilginer, O. Canbek, S.T. Erdo\u011fan (2020)<\/em> Activation of Blast Furnace Slag with Soda Production Waste<\/a>. ASCE Journal of Materials in Civil Engineering 32(1).<\/li>\n
  13. M.K. Ardo\u011fa, S.T. Erdo\u011fan, M. Tokyay (2019)<\/em>\u00a0Effect of particle size on early heat evolution of interground natural pozzolan blended cements<\/a>. Construction and Building Materials 206, 210-218.<\/li>\n
  14. M. \u015eahin, S.T. Erdo\u011fan, \u00d6. Bayer (2018) <\/em>Production of lightweight aerated alkali-activated slag pastes using hydrogen peroxide<\/a>.\u00a0Construction and Building Materials 179, 587-597.<\/li>\n
  15. M. Mahyar, S.T. Erdo\u011fan, M. Tokyay (2018)<\/em>\u00a0Extension of the chemical index model for estimating Alkali-Silica reaction mitigation efficiency to slags and natural pozzolans<\/a>. Construction and Building Materials 179, 587-597.<\/li>\n
  16. S. T. Erdo\u011fan, T. \u00c7. Ko\u00e7ak (2017)<\/em>\u00a0Influence of Slag Fineness on the Strength and Heat Evolution of Multiple-Clinker Blended Cements<\/a>.\u00a0Construction and Building Materials 155, 800-810.<\/li>\n
  17. S. T. Erdo\u011fan, A. Forster, P.E. Stutzman, E.J. Garboczi (2017)<\/em>\u00a0Particle-based characterization of Ottawa sand: Shape, size, mineralogy, and elastic moduli<\/a>. Cement and Concrete Composites 83, 36-44.<\/li>\n
  18. M. \u015eahin, M. Mahyar, S.T.\u00a0Erdo\u011fan (2016)<\/em> Mutual activation of blast furnace slag and a high-calcium fly ash rich in free lime and sulfates<\/a>. Construction and Building Materials 126, 466-475.<\/li>\n
  19. S.T.\u00a0Erdo\u011fan (2016)<\/em> Simple Estimation of the Surface Area of Irregular 3-D Particles<\/a>. ASCE\u00a0Journal of Materials in Civil Engineering 28(8).<\/li>\n
  20. C. \u00c7etin, S.T.\u00a0Erdo\u011fan, M. Tokyay<\/em> (2016) Effect of Particle Size and Slag Content on the Early Hydration of Interground Blended Cements<\/a>. Cement and Concrete Composites 67, 39-49.<\/li>\n
  21. M. Mahyar, S.T.\u00a0Erdo\u011fan (2015)<\/em> Phosphate-activated high-calcium fly ash acid-base cements<\/a>.\u00a0Cement and Concrete Composites 63, 96-103.<\/li>\n
  22. S.T.\u00a0Erdo\u011fan (2015)<\/em>\u00a0Inexpensive intumescent alkali-activated natural pozzolan pastes<\/a>.\u00a0Journal of the European Ceramic Society,\u00a035(9),\u00a02663-2670.<\/li>\n
  23. S.T. Erdo\u011fan (2015)<\/em>, Properties of Ground Perlite Geopolymer Mortars<\/a>, ASCE\u00a0Journal of Materials in Civil Engineering 27 (7).<\/li>\n
  24. S. Deniz, S.T. Erdo\u011fan (2015)<\/em> Prediction of Elastic Moduli Development of Cement Mortars Using Early Age Measurements<\/a>.\u00a0ASCE\u00a0Journal of Materials in Civil Engineering 27 (1).<\/li>\n
  25. S.T. Erdo\u011fan, D. \u00d6ver, M. Tokyay<\/em> (2014) Effect of Pozzolan Content and Fineness on Early Hydration of Interground Blended Cements<\/a>. Journal of Advanced Concrete Technology 12(3), 101-110.<\/li>\n
  26. S.T. Erdo\u011fan, A.\u00dc. Sa\u011fl\u0131k<\/em> (2013) Early-age activation of cement pastes and mortars containing ground perlite as a pozzolan<\/a>, Cement and Concrete Composites 38, 29-39.<\/li>\n
  27. S.T. Erdo\u011fan\u00a0(2013)<\/em> Effect of clinker phase distribution within cement particles on properties of a hydrating cement paste<\/a>. Construction and Building Materials 38, 941-949.<\/li>\n
  28. E. Altan, S.T. Erdo\u011fan\u00a0(2012)<\/em>, Alkali activation of a slag at ambient and elevated temperatures<\/a>, Cement and Concrete Composites 34(2), 131-139.<\/li>\n
  29. X. Liu, E.J. Garboczi, M. Grigoriu, Y. Lu, S.T. Erdo\u011fan (2011)<\/em>, Spherical harmonic-based random fields based on real particle 3D data: Improved numerical algorithm and quantitative comparison to real particles.<\/a> Powder Technology, 207(1), 78-86.<\/li>\n
  30. E. Mahmoud, L. Gates, E. Masad, S. Erdo\u011fan, E. Garboczi (2010)<\/em>. Comprehensive Evaluation of AIMS Texture, Angularity, and Dimension Measurements<\/a>, ASCE Journal of Materials in Civil Engineering 22(4), 369-379.<\/li>\n
  31. L. Holzer, R. Flatt, S.T. Erdo\u011fan, J.W. Bullard, E.J. Garboczi (2010)<\/em>. Shape comparison between 0.4 mm to 2.0 mm and 20 mm to 60 mm cement particles<\/a>, Journal of the American Ceramic Society 93(6) 1501-1804.<\/li>\n
  32. S.T. Erdo\u011fan, X. Nie, P.E. Stutzman, E.J. Garboczi (2010)<\/em> Micrometer-scale 3-D shape characterization of eight cements: Particle shape and cement chemistry, and the effect of particle shape on laser diffraction particle size measurement<\/a>, Cement and Concrete Research 40(5), 731-739.<\/li>\n
  33. S.T. Erdo\u011fan, N.S. Martys, C.F. Ferraris, D.W. Fowler (2008)<\/em> Influence of the Shape and Roughness of Inclusions on the Rheological Properties of a Cementitious Suspension<\/a>, Cement and Concrete Composites 30(5), 393-402.<\/li>\n
  34. S.T. Erdo\u011fan, E.J. Garboczi, D.W. Fowler, (2007)<\/em> Shape and size of microfine aggregates: X-ray microcomputed tomography vs. laser diffraction<\/a>, Powder Technology 177, 53-63.<\/li>\n
  35. M.A. Taylor, E.J. Garboczi, S.T. Erdo\u011fan, D.W. Fowler (2006)<\/em> Some Properties of Irregular 3-D Particles<\/a>, Powder Technology 162(1), 1-15.<\/li>\n
  36. S.T. Erdo\u011fan, P.N. Quiroga, D.W. Fowler, H.A. Saleh, R.A. Livingston, E.J. Garboczi, P.M. Ketcham, J.G. Hagedorn, S.G. Satterfield<\/em>\u00a0(2006) Three-dimensional shape analysis of coarse aggregates: Methodology and preliminary results on several different coarse aggregates and reference rocks<\/a>, Cement and Concrete Research 36(9), 1619-1627.<\/li>\n<\/ol>\n

    Conference Publications<\/strong><\/p>\n

      \n
    1. O. Canbek, ST Erdo\u011fan (2019<\/a>)\u00a0Production of Calcium Sulfoaluminate Cements with Natural and Waste Materials, 10th International Concrete Congress, May 2-4 , Bursa, Turkey.<\/a><\/li>\n
    2. B. A. Bilginer, ST Erdo\u011fan (2019) Production of Fly Ash-Magnesium Phosphate Cements<\/a>, 10th International Concrete Congress, May 2-4 , Bursa, Turkey.<\/a><\/li>\n
    3. O. Canbek, ST Erdo\u011fan (2018) Production of Calcium Sulfoaluminate Cements using Industrial Byproducts in Turkey.\u00a0<\/a>13th International Congress on Advances in Civil Engineering<\/li>\n
    4. S. Shakouri, ST Erdo\u011fan (2018). Production of Silica Fume-Based Geopolymer Foams. 13th International Congress on Advances in Civil Engineering.<\/a><\/li>\n
    5. M. \u015eahin, M M., ST Erdo\u011fan (2015) Af\u015fin Elbistan u\u00e7ucu k\u00fcl\u00fc ve y\u00fcksek f\u0131r\u0131n c\u00fcrufu i\u00e7eren \u00e7imentosuz ba\u011flay\u0131c\u0131lar haz\u0131rlanmas\u0131.\u00a0<\/a>9. Ulusal Beton Kongresi, Antalya, T\u00fcrkiye.<\/li>\n
    6. S.T.\u00a0Erdo\u011fan (2015)\u00a0Intumescence and pore structure of alkali-activated volcanic glasses upon exposure to high temperatures<\/a>. American Geophysical Union Fall Meeting 2015.\u00a0MR21A-2602. San Francisco, CA.<\/li>\n
    7. M. Mahyar, Sinan Turhan Erdogan, Room-temperature Acid-Base Ceramics Produced Using a High-Calcium Fly Ash.“EUROCOALASH 2014”<\/i>, 1, (2014), p.173-182.<\/li>\n
    8. S.T. Erdo\u011fan, E. Altan, Activation of a Turkish Blast Furnace Slag Using Alkalis. “10th International Congress on Advances in Civil Engineering 2012”<\/i>, (2012).<\/li>\n
    9. S.T. Erdo\u011fan, Mustafa Tokyay, Development of Inorganic Silicone Polymers from Silica Fume . “7th ASIAN SYMPOSIUM on POLYMERS in CONCRETE”<\/i>, (2012).<\/li>\n
    10. S.T.\u00a0Erdo\u011fan (2013)\u00a0Environmentally-Friendly Geopolymeric Binders Made with Silica<\/a>. American Geophysical Union Fall Meeting 2013. GC23B-0909. San Francisco, CA.<\/li>\n
    11. Sinan T. Erdogan, Use of perlite to produce geopolymers. “Cement and Concrete Science 2011”<\/i>, 1, (2011), p.0-300.<\/li>\n
    12. S.T.\u00a0Erdo\u011fan (2011)\u00a0Environmentally-Friendly Geopolymeric Binders Made with Perlite<\/a>. American Geophysical Union Fall Meeting 2011. GC33D-06. San Francisco, CA.<\/li>\n
    13. Sinan T. Erdogan, Edward J. Garboczi, Jeffrey W. Bullard, Prediction of Elastic Properties of Concrete Using the Virtual Cement and Concrete Testing Laboratory. “11DBMC\u00a0<\/i>International Conference on Durability of Building Materials and Components”<\/i>, (2008).<\/li>\n
    14. E.J. Garboczi, S.T. Erdo\u011fan, G. Lespinasse, A. Forster, P. Stutzman, Characterization of Ottawa sand: Optical and scanning electron microscopy, X-ray tomography and diffraction, and nanoindentation. “MS&T 08, MATERIALS AND SYSTEMS: Advances in Characterization and Modeling of Cementitious Materials”<\/i>, (2008).<\/li>\n
    15. Edward J. Garboczi, Paul E. Stutzman, Sinan T. Erdo\u011fan, Xiaobo Nie, Micrometer-scale 3-D shape characterization of eight cements: Particle shape and cement chemistry and laser diffraction. “MS&T 08, MATERIALS AND SYSTEMS: Advances in Characterization and Modeling of Cementitious Materials”<\/i>, (2008).<\/li>\n
    16. Edward J. Garboczi, Sinan T. Erdo\u011fan, Lorenz Holzer, Robert J. Flatt, Shape comparison between 0.4 – 2.0 and 20 – 60 micrometer cement particles. “MS&T 08, MATERIALS AND SYSTEMS: Advances in Characterization and Modeling of Cementitious Materials”<\/i>, (2008)<\/li>\n<\/ol>\n","protected":false},"excerpt":{"rendered":"

      Refereed Journal Publications B.A. Bilginer, S.T. Erdo\u011fan (2025) Enhancing magnesium oxalate cements with copper slag and silica fume. Construction and Building Materials 452, 138999 S.B. Bilmez, S.T. Erdo\u011fan (2024) Improving the Sustainability of Magnesium Oxalate Cements Using Clay and Calcium Sulfoaluminate Clinker. \u00a0Journal of Materials in Civil Engineering (accepted). M. Atasever, S.T. Erdo\u011fan (2024) Effects […]<\/p>\n","protected":false},"author":810,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"open","ping_status":"open","template":"","meta":{"footnotes":"","_links_to":"","_links_to_target":""},"class_list":["post-10","page","type-page","status-publish","hentry"],"_links":{"self":[{"href":"https:\/\/blog.metu.edu.tr\/sinante\/wp-json\/wp\/v2\/pages\/10","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/blog.metu.edu.tr\/sinante\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/blog.metu.edu.tr\/sinante\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/blog.metu.edu.tr\/sinante\/wp-json\/wp\/v2\/users\/810"}],"replies":[{"embeddable":true,"href":"https:\/\/blog.metu.edu.tr\/sinante\/wp-json\/wp\/v2\/comments?post=10"}],"version-history":[{"count":0,"href":"https:\/\/blog.metu.edu.tr\/sinante\/wp-json\/wp\/v2\/pages\/10\/revisions"}],"wp:attachment":[{"href":"https:\/\/blog.metu.edu.tr\/sinante\/wp-json\/wp\/v2\/media?parent=10"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}