Mehrzad MOHABBI, 1980 yılında Tebriz’de doğdu. 1999 yılında girdiği Tebriz Azad Üniversitesi Mühendislik Fakültesi İnşaat Mühendisliği Bölümü’nden 2003 yılında mezun olduktan sonra 2005 yılına kadar İran’da farklı şirketlerde ve farklı pozisyonlarda çalışıp ve inşaat sektöründe yeni tecrübelere sahip oldu. 2005 yılında girdiği Azad Üniversitesi Mühendislik Fakültesi İnşaat Mühendisliği Bölümü’nden 2008 yılında mezun olduktan sonra 2010 yılına kadar Tebriz’in Traktör fabrikasında inşaat mühendislik müşaviri ve yetkilisi olarak çalışmalarına devam etti. 2010 yılında Atatürk üniversitesinde doktora programına başladı. 2010 yılında girdiği Atatürrk Üniversitesi Mühendislik Fakültesi İnşaat Mühendisliği Bölümü’nden 2013 yılında mezun oldu. Uluslararası ve ulusal hakemli dergilerde makaleler ve uluslararası kongre ve sempozyumlarda bildiriler yayımladı 18 hakemli dergi 21 sempozyum bildirisi. 7 bilimsel araştırma projesinde (BAP) görev yaptı. Farsça, Azerice, Türkçe, İngilizce, Arapça dillerin bilmektedir. 2014 yılından itibaren Bingöl üniversitesinde Yardımcı doçent olarak inşaat mühendisliği bölümünde görev yapmaktadır. Aynı zamanda Türkiye ve İran İslam cumhuriyeti vatandaşıdır. Evlidir ve Hobileri dağcılık, tırmanış, farklı müzik aletlerinin çalması ve Almanca öğrenmektir.

1-Lisans  Mühendislik-Fakültesi-İnşaat Mühendisliği Islamic Azad University –İran 2003

2-YüksekLisans Mühendislik-Fakültesi-İnşaat Mühendisliği Islamic Azad University–İran 2008

3-Doktora Mühendislik-Fakültesi-İnşaat Mühendisliği Atatürk Üniversitesi 2013-Erzurum

İngilizce

Azerice

Farsca

Almanca (TEMEL)

PUBLICATIONS:

(SCI) INTERNATIONAL JOURNALS

[1] Karagol F, Demirboga R, Kaygusuz MA, Yadollahi MM, Polat R. The influence of calcium nitrate as antifreeze admixture on the compressive strength of concrete exposed to low temperatures. Cold Reg Sci Technol. 2013;89:30-5.

[2] Yadollahi MM, Karagol F, Kaygusuz MA, Polat R, Demirboga R. Safety factor determining for space trusses by non-linear analysis and artificial neural network method. Sci Eng Compos Mater. 2013;20(3):277-84.

[3] Yadollahi MM, Demirboga R, Polat R. Effect of heat treatment temperature on ground pumice activation in geopolymer composites. Sci Eng Compos Mater. 2014;21(3):377-82.

[4] Yadollahi MM, Benli A, Demirboga R. Effects of elevated temperature on pumice based geopolymer composites. Plast Rubber Compos. 2015;44(6):226-37.

[5] Yadollahi MM, Benli A, Demirboga R. The effects of silica modulus and aging on compressive strength of pumice-based geopolymer composites. Construction and Building Materials. 2015;94:767-74.

[6] Yadollahi MM, Benli A, Demirboga R. Application of adaptive neuro-fuzzy technique and regression models to predict the compressive strength of geopolymer Composites. Neural Computing and Applications. 2017   28 (6), pp. 1453-1461;

[7] Yadollahi MM, Benli A, Demirboga R. Prediction of compressive strength of geopolymer composites using an Artificial Neural Network. Materials Research Innovations. 2015; 19 (6), pp. 453-458

[8] Yadollahi MM, Benli A, Stress-strain behavior of geopolymer under uniaxial compression. Computers and Concrete 20(4) · October 2017.DOI: 10.12989/cac.2017.20.4.000

[9] Yadollahi, M.M. and M. Dener, Investigation of Elevated Temperature on Compressive Strength and Microstructure of Alkali Activated Slag Based Cements. European Journal of Environmental and Civil Engineering (TECE), 2019. Underpress.

[10] Yadollahi, M.M, Investigation of sulfates effects in perlite based geopolymer. Structural Concrete,2019.  Structural Concrete 20(4), pp. 1402-1410

[11] Mehmet Karatas , M. Dener  ,Yadollahi, M.M, Benli A. A study on the compressive strength and microstructure characteristic of alkali-activated metakaolin cement. Mar 2019 Matéria (Rio de Janeiro) under press

[12] Mehmet Karatas , M. Dener  ,Yadollahi, M.M, Benli A  High temperature effect on the mechanical behavior of steel fiber reinforced self-compacting concrete containing ground pumice powder  2019 Structural Concrete 20(5), pp. 1734-1749

INTERNATIONAL JOURNALS

[13] Polat R, Yadollahi MM, Sağsöz AE, Arasan S. The correlation between aggregate shape and compressive strength of concrete: digital image processing approach. International Journal of Structural and Civil Engineering Research. 2013;2(3):62-80.

[14] Atashafrazeh M, Yadollahi MM. Geometric design consistency model based on speed and safety in rural highways in some European countries: a review. International Journal of Structural and Civil Engineering Research. 2013;2(2):129-36.

[15] Yadollahi MM, Demirboga R, Polat R, Atashafrazeh M. Behavior investigation of NAOH-activated pumice-based geopolymer composites exposed to elevated temperature. International Journal of Structural and Civil Engineering Research. 2013;2(2):137-42.

[16] Yadollahi MM, Polat R, Demirboga R, Kaygusuz MA. Steel fibers effect in strength enhancement of geopolymer composite. Journal of Basic and Applied Scientific Research. 2012;2(8):8416-842.

[17] Yadollahi MM, Goharkhaneh Asli F, Gül R. Role of English-instruction based courses in engineering education International Journal of Engineering and Technology. 2012;9(1):34-9.

[18] Yadollahi  M.M, Varolgüneş S. Manyetize Edilmiş Suyun, Reaktif Pudra Betonların Eğilme ve Basınç Dayanımı Üzerindeki Etkisi, Bilecik Şeyh Edebali Üniversitesi Fen Bilimleri Dergisi, Cilt 6 , Oca 2019 , Sayfalar 21 – 29

[19] Yadollahi  M.M, (2019 January).  Nano Silika ve Mikro Silika Ferrokrom Cürufu Bazlı Geopolimerlerin Mekanik Özelliklerine Etkisi, Düzce Üniversitesi Bilim ve Teknoloji Dergisi (TR dizin), (under press).

[20] Yadollahi  M.M, Varolgüneş S (2020 Mart). Farkli Kür koşullarının Reaktıf Pudra Betonların mekanik özelliklerine etkisi.  Dicle Üniversitesi Mühendislik Fakültesi Dergisi (DÜMF-TR dizin), (under press).

NATIONAL JOURNALS

[21] Yadollahi MM, Benli A. Collapse Mechanisms Determination for Space Trusses under Uniform Loading and Different Support Conditions. Turkish Journal of Nature and Science. 2015;4(1):59-64.

[22] Yadollahi MM, Benli A. A study on using artificial neural  network techniques in  civil engineering problems. Turkish Journal of Nature and Science. 2015;4(2):5.

[23]Yadollahi, M.M. and A. Benli, Assessment of shear wall effectiveness in controlling lateral drift for 10 stories reinforced concrete building. Turkish Journal of Nature and Science, 2016. 5 (1): p. 5.

[24] Yadollahi MM, Varol güneş S,İşsever F, Na₂O ,silika modülü,su/bağlayici orani ve yaşlanmanin cürüf tabanli geopolimerlerin basinç mukavemetinde olan etkileri. Turkish Journal of Nature and Science, 2017. 6 (2): p. 26.

[25] Yadollahi MM, Varol güneş S, Polipropilen Liflerin Perlit Esaslı Geopolimerlerin Mekanik Davranışına Etkisi,  Turkish Journal of Nature and Science, 2018. 7 (2): P36- 41

[26] Yadollahi MM, Benli A, Varol güneş S kahramanmaras Sutcu Imam University Journal of Engineering Sciences “Masonry Infill Walls Effect In Short Column Formation In Rc Buildings: ACaseStudy”Vol:19,No:2(2016)

INTERNATIONAL CONFERENCES

[27] Yadollahi MM, Demirboga R, Kaygusuz MA, Polat R, Karagol F. Estimating Concrete Compressive Strength Produced by GFRP and Pozzolanic Materials Exposed to Fire Using Ann Method. Fibre Concrete 2011: Technology, Design, Application. 2011:455-62. Prague-Czech Republic.

[28] Yadollahi MM, Gül R, Polat R, Yadollahi MB, Gül M. The effect of initial geometric imperfection on the load bearing capacity of double layer barrel vault space structures.  ECCOMAS Thematic Conference - COMPDYN 2011: 3rd International Conference on Computational Methods in Structural Dynamics and Earthquake Engineering: An IACM Special Interest Conference, Programme. Corfu, Greece.2011.

[29] Yadollahi MM, Kaygusuz MA, Polat R, Demirboga R, Gül R. Steel fiber effect in bending and compressive strength enhancement of geopolymer composite.  ECCM 2012 - Composites at Venice, Proceedings of the 15th European Conference on Composite Materials. Venice, Italy2012.

[30] Yadollahi MM, Zmanlou H, Polat R, Demirboga R. Determining appropriate safety factor for space trusses by nonlinear analysis and ANN method.  ICCES Special international Symposium on Meshless & Other Novel Computational Methods. Zonguldak-Turkey2011.

[31] Yadollahi MM, Goharkhaneh Asli F, Gül R. Role of english-instruction based courses in engineering education.  International Engineering Education Conference Madinah al-Munawarah, Kingdom of Saudi Arabia2011.

[32] Yadollahi MM, Goharkhaneh Asli F, Gül R. Using applicable and user-friendly methods in education.  International Engineering Education Conference. Madinah al-Munawarah, Kingdom of Saudi Arabia2011.

[33] Tahmasebian M, Yadollahi MM, Zmanlou H, Goharkhaneh Asli F. Applicatıons of artificial neural networks in the surface engineering: a short review.  International Science and Technology Conference. Istanbul-Turkey 2011.

[34] Goharkhaneh Asli F, Yadollahi MM, Takkac M. The effect of critical thinking in Iranian Azeri English teacher practice.  The 4th ENIEDA Conference on Linguistic and Intercultural Education.          V r š ac- Serbia2011.

[35] Yadollahi MM, Yener E. The effect of olive pomace on asphalt binder properties.  International Conference on Civil Engineering Architecture & Urban Sustainable Development2013:Tabriz Iran.

[36] Benli Ahmet, Mohabbi Yadollahi Mehrzad, Calayir Yusuf (2016). Kendiliginden Yerlesen Ve Normal Betondaki Donatı Aderans Dayanımının Deneysel Ve Sayısal Olarak Incelenmesi. International Conference On Natural Science And Engineering (Icnase’16)March 19-20, 2016, Kilis (Yayın No: 2602738)

[37] Mohabbi Yadollahi Mehrzad,Benli Ahmet,Issever Fethi (2015). Conventional And Adaptive Pushover Analysis  Comparison For Seismic Response Assessment In In 10 Story Moment Resisting Steel Structure. International Conference On Natural Science And Engineering (Icnase’16) March 19-20, 2016, Kilis (Yayın No: 2554105)

[38] Yadollahi, M.M. and A. Benli, Optimization of Na2O dosage for obtaining high compressive strength from ferrochrome slag based geopolymers, in 1.International academic research congress(INES2016). 2016: Side (Antalya)-Turkey.

[39] Benli, A. and M.M. Yadollahi, Different Lateral Bracing System effect in Concrete Frame performance in 1.International academic research congress (INES2016). 2016: Side (Antalya)-Turkey.

[40] Yadollahi, M.M. Varolgüneş.Assessment of compressive strength in hybrid alkaline cement.  ‘II. International Iğdır Symposium October 9-11, 2017 Iğdır,Turkey

[41] Yadollahi, M.M. Varolgüneş. Sulfate resistance of ferrochrome slag based Hybrid alkaline cements.  ‘II. International Iğdır Symposium October 9-11, 2017 Iğdır,Turkey

[42] Yadollahi, M.M. Varolgüneş. The effects of Na2O, silica modulus, water/binder and aging on compressive strength of ferrochrome slag based geopolymer.  ‘İnternational conference on advanced engineering technology, 2017 Bayburt,Turkey.

[43] Yadollahi, M.M. Varolgüneş. Effects cement on the microstructure and mechanical performance of slag based alkalin hybrid cement.  ‘İnternational conference on advanced engineering technology, 2017 Bayburt,Turkey.

[44] Yadollahi, M.M. Varolgüneş. Steel Plate Shear Walls behavior under hysteresis loads ‘8thİnternational conference on advanced technology symposium, 2017 .Elazığ,Turkey.

[45] Yadollahi, M.M. Varolgüneş. Investigation of Mega Bracing Influence in Improving of Mediocre Steel Skyscrapers Behavior. ‘8thİnternational conference on advanced technology symposium, 2017 .Elazığ,Turkey.

[46] Dener, M., Karatas ,M., Benli, A. , Yadollahi ,M. M.Mechanical and durability properties of steel fiber reinforced self-compacting concrete incorporating ground pumice powder . ‘8thİnternational conference on advanced technology symposium, 2017 .Elazığ,Turkey.

[47] Dener, M., Karatas ,M., Benli, A. , Yadollahi ,M. M. The influence of elevated temperature on the mechanical properties of steel fiber reinforced self-compacting concrete with ground pumice powder. ‘8thİnternational conference on advanced technology symposium, 2017 . Elazığ, Turkey.

[48]  İşsever   F, Yadollahi M.M , Varolgüneş S.(2018). Taze Betonda Akışkanlaştırıcılar İle İşlenebilirlik, Priz Süresi, Dayanım ve Durabilite Arasındaki İlişkinin İncelenmesi. International engineering and technology symposium (IETS'18), Batman Unıversity, Batman, Turkey,  3-5 May 2018.

[49] Varolgüneş  S, Yadollahi  M.M , İşsever F. (2018). Reaktif Pudra Betonları ile Donatı Arasındaki Aderansın İncelenmesi İncelenmesi . International engineering and technology symposium (IETS'18), Batman Unıversity, Batman, Turkey,  3-5 May 2018.

[50] İşsever  F, Dener, M, Yadollahi  M.M  , Varolgüneş  S.(2018). Reaktif pudra betonlarının basınç dayanımı ve sulfata karşı dayanıklılığının incelenmesi . International engineering and technology symposium (IETS'18), Batman Unıversity, Batman, Turkey,  3-5 May 2018.

[51]  Varolgüneş  S, Yadollahi  M.M,  İşsever F.(2018). Betonarme Perdeli-Çerçeveli Yapılarda Dolgu Duvarların Kısa Kolon Oluşumundaki Rolünün İncelenmesi. International engineering and technology symposium (IETS'18), Batman Unıversity, Batman, Turkey,  3-5 May 2018.

[52]  Dener   M, Yadollahi  M.M.  (2018). Mechanical And Durability Properties of Alkali Activated Cements Based on Metakaolin. International engineering and technology symposium (IETS'18), Batman Unıversity, Batman, Turkey,  3-5 May 2018.

[53]  Yadollahi  M.M,  Dener  M.(2018).  Investigation of Concentric And Eccentric Lateral BracingSystem in Steel Structure Performance. International engineering and technology symposium (IETS'18), Batman Unıversity, Batman, Turkey,  3-5 May 2018.

[54]   Dener  M, İşsever  F, Yadollahi  M.M  , Varolgüneş S. ( 2018).  Reaktif Pudra Betonlarda Mineral Katkı Kullanımın Çekme ve Basınç Gerilmeleri Arasındaki Regresyon Analizi. International engineering and technology symposium (IETS'18), Batman Unıversity, Batman, Turkey,  3-5 May 2018.

[55] İşsever  F, Yadollahi  M.M,  Varolgüneş  S. ( 2018).  The Effect Of Tadas Dampers In Performance Of Braced Fremes.  International engineering and technology symposium (IETS'18), Batman Unıversity, Batman, Turkey,  3-5 May 2018.

[56] Dener, M., Karatas, M., and Yadollahi, M.M. (2018).Effect of Specimen Size on Alkali Activated Cements,4^th International Ege Composite Materials Symposium (KOMPEGE’18), Ege University, Izmir,Turkey, 06-08 September.

[57] Yadollahi  M.M. (2018). Kür Şartlarının Reaktıf Pudra Beton Üretımındekı Etkısı.  Anadolu 1. Uluslararasi  Multidisipliner Çalişmalar Kongresi Diyarbakir, Turkey, 28-29 Aralık 2018.

[58] Yadollahi M.M. (2018). Review: Perlite Based Geopolymer Production By Alkali Activation.  Anadolu 1. Uluslararasi  Multidisipliner Çalişmalar Kongresi Diyarbakir, Turkey, 28-29 Aralık 2018.

[59] Yadollahi  M.M. (2018). Başlangiç Geometrik Kusurunun Kemer Şeklindeki Çift Katmanli Uzay Kafes Sistemlerin Taşiyabileceği Yük Üzerindeki Etkisi.  Anadolu 1. Uluslararasi  Multidisipliner Çalişmalar Kongresi Diyarbakir, Turkey, 28-29 Aralık 2018.

NATIONAL CONFERENCES

[60] Yadollahi MM, Benli A. Collapse mechanisms determination for flat double-layer space trusses under uniform loading by SAP2000.  XIX Ulusal Mekanik Kongresi Karadeniz Teknik Üniversitesi, Trabzon2015.

[61] Ghahramanzadeh AH, Tahmasebianmiandoab M, Yadollahi MM. Trafik kaza güvenliğini artırmak için CNG tüpünün modellemesi ve optimizasyonu.  Makina Tasarım ve İmalat Teknolojileri Kongresi. Konya-Turkey2011.

[62] Yadollahi MM, Demirboga R, Polat R, Karagöl F, Kaygusuz MA. Yapay sinir ağları yöntemi ile betonun elastik ve kayma modüllerinin bulunması.  I ulusal Ege kompozit malzemeler sempozyumu. Izmir-Turkey2011.

[63] Yadollahi MM, Goharkhaneh Asli F. The role of Ibrahim Hakki holiness in culturalization and publicize knowledge seeking in the Islamic society of Turkey and Iran.  Butun yönleri ile Erzurumlu Ibrahim Hakki Hazretleri. Erzurum-Turkey2011.

[64] Yadollahi, M.M. and A. Benli, Türkiyede Tarihi Yığma Yapıların Lineer Olmayan Sismik Analiz İhtiyacı (Demand of nonlinear seismic analysis for historical masonry buildings in turkey), in 5, Tarihi Eserlerin Güçlendirilmesi Ve Geleceğe Güvenle Devredilmesi Sempozyumu. 1-2 Ekim 2015, TMMOB İnşaat Mühendisleri Odası: Erzurum, Türkiye.

1-Ceramics International-ISSN: 0272-8842

2-Structural concrete

THE PASSED COURSE RELATED WITH MY WORK AND SUPERINTENDENCY

CITATIONS FOR MY PUBLICATIONS

High temperature effect on the mechanical behavior of steel fiber reinforced self-compacting concrete containing ground pumice powder

1) Arslan, F., Benli, A., Karatas, M. Effect of high temperature on the performance of self-compacting mortars produced with calcined kaolin and metakaolin (2020) Construction and Building Materials, 256, art. no. 119497, .

2) Benli, A., Karatas, M., Anil Toprak, H. Mechanical characteristics of self-compacting mortars with raw and expanded vermiculite as partial cement replacement at elevated temperatures (2020) Construction and Building Materials, 239, art. no. 117895, .

3) Mathews, M.E., Nandhagopal, M., Anand, N., Arulraj, G.P. Versatility at its best: An integrated review on development of self-compacting concrete (2019) International Journal of Scientific and Technology Research, 8 (10), pp. 513-519.

Investigation of sulfates effects in perlite-based geopolymer

1) Wang, P., Qiao, H., Chen, K., Li, Y., Feng, Q. Life Prediction and Long-Term Durability of Coated Steel Bars in Magnesium Oxychloride Concrete (2020) KSCE Journal of Civil Engineering, .

2) Fazilati, M., Golafshani, E.M. Introduction of a mineral powder as a type of natural cementitious material in concrete: An experimental program (2019) Structural Concrete, 20 (5), pp. 1512-1527. Cited 3 times.

Investigation of elevated temperature on compressive strength and microstructure of alkali activated slag based cements

1) Coppola, B., Tardivat, C., Richaud, S., Tulliani, J.-M., Montanaro, L., Palmero, P. Alkali-activated refractory wastes exposed to high temperatures: development and characterization (2020) Journal of the European Ceramic Society, 40 (8), pp. 3314-3326.

2) Karatas, M., Benli, A., Toprak, H.A. Effect of incorporation of raw vermiculite as partial sand replacement on the properties of self-compacting mortars at elevated temperature (2019) Construction and Building Materials, 221, pp. 163-176.

A study on the compressive strength and microstructure characteristic of alkali-activated metakaolin cement

1. Arslan, F., Benli, A., Karatas, M. Effect of high temperature on the performance of self-compacting mortars produced with calcined kaolin and metakaolin (2020) Construction and Building Materials, 256, art. no. 119497,

Stress-strain behavior of geopolymer under uniaxial compression

1) Palchik, V. Simple stress–strain model of very strong limestones and dolomites for engineering practice (2019) Geomechanics and Geophysics for Geo-Energy and Geo-Resources, 5 (4), pp. 345-356.

 2) Prem, P.R., Thirumalaiselvi, A., Verma, M. Applied linear and nonlinear statistical models for evaluating strength of Geopolymer concrete (2019) Computers and Concrete, 24 (1), pp. 7-17. Cited 1 time.

3) Al-Rousan, R.Z., Alhassan, M.A., Hejazi, M.A. Novel nonlinear stiffness parameters and constitutive curves for concrete (2018) Computers and Concrete, 22 (6), pp. 539-550.

4) Palchik, V. Applicability of exponential stress-strain models for carbonate rocks (2018) Geomechanics and Engineering, 15 (3), pp. 919-925.

Application of adaptive neuro-fuzzy technique and regression models to predict the compressive strength of geopolymer composites

1) Akono, A.T., Koric, S., Kriven, W.M. Influence of pore structure on the strength behavior of particle- and fiber-reinforced metakaolin-based geopolymer composites (2019) Cement and Concrete Composites, 104, art. no. 103361, . 1

2) MolaAbasi, H., Khajeh, A., Semsani, S.N., Kordnaeij, A. Prediction of Zeolite-Cemented Sand Tensile Strength by GMDH type Neural Network (2019) Journal of Adhesion Science and Technology, 33 (15), pp. 1611-1625.

3) Lau, C.K., Lee, H., Vimonsatit, V., Huen, W.Y., Chindaprasirt, P. Abrasion resistance behaviour of fly ash based geopolymer using nanoindentation and artificial neural network (2019) Construction and Building Materials, 212, pp. 635-644.

4) Sadowski, Piechówka-Mielnik, M., Widziszowski, T., Gardynik, A., Mackiewicz, S. Hybrid ultrasonic-neural prediction of the compressive strength of environmentally friendly concrete screeds with high volume of waste quartz mineral dust (2019) Journal of Cleaner Production, 212, pp. 727-740.

5) Mola-Abasi, H., Eslami, A. Prediction of drained soil shear strength parameters of marine deposit from CPTu data using GMDH-type neural network (2019) Marine Georesources and Geotechnology, 37 (2), pp. 180-189.

6) Mai, X. Efficient multimedia information mining framework based on deep learning and self-organizing model (2019) Multimedia Tools and Applications, 78 (4), pp. 4605-4622.

7) Khude, P., Majumdar, A., Butola, B.S. Modelling and prediction of antibacterial activity of knitted fabrics made from silver nanocomposite fibres using soft computing approaches (2019) Neural Computing and Applications

8) Moayed, R.Z., Kordnaeij, A., Mola-Abasi, H. Compressibility indices of saturated clays by group method of data handling and genetic algorithms (2017) Neural Computing and Applications, 28, pp. 551-564.

9) Hassanlourad, M., Ardakani, A., Kordnaeij, A., Mola-Abasi, H. Dry unit weight of compacted soils prediction using GMDH-type neural network (2017) European Physical Journal Plus, 132 (8), art. no. 357, .

10) Sadrossadat, E., et al., Prediction of the resilient modulus of flexible pavement subgrade soils using adaptive neuro-fuzzy inference systems. 2016. 123: p. 235-247.

11) Al-Zharani, T.M., et al., Measurement and prediction of correction factors for very high core compressive strength by using the adaptive neuro-fuzzy techniques. 2016. 122: p. 320-331.

12) Dogan, A., et al., Investigation of Multi Linear Regression Methods on Estimation of Free Vibration Analysis of Laminated Composite Shallow Shells. 2017. 4(12).

Prediction of compressive strength of geopolymer composites using an artificial neural network

1) Nguyen, K.T., Nguyen, Q.D., Le, T.A., Shin, J., Lee, K. Analyzing the compressive strength of green fly ash based geopolymer concrete using experiment and machine learning approaches (2020) Construction and Building Materials, 247, art. no. 118581,

2) Nagajothi, S., Elavenil, S. Influence of Aluminosilicate for the Prediction of Mechanical Properties of Geopolymer Concrete – Artificial Neural Network (2020) Silicon, 12 (5), pp. 1011-1021.

3) Zhang, P., Wang, K., Wang, J., Guo, J., Hu, S., Ling, Y. Mechanical properties and prediction of fracture parameters of geopolymer/alkali-activated mortar modified with PVA fiber and nano-SiO2 (2020) Ceramics International, .

4) Ling, Y., Wang, K., Wang, X., Li, W. Prediction of engineering properties of fly ash-based geopolymer using artificial neural networks (2019) Neural Computing and Applications, .

5) Altarazi, S., Ammouri, M., Hijazi, A. Artificial neural network modeling to evaluate polyvinylchloride composites’ properties (2018) Computational Materials Science, 153, pp. 1-9.

6) Leong, H.Y., Ong, D.E.L., Sanjayan, J.G., Nazari, A., Kueh, S.M. Effects of significant variables on compressive strength of soil-fly ash geopolymer: Variable analytical approach based on neural networks and genetic programming (2018) Journal of Materials in Civil Engineering, 30 (7), art. no. 04018129, .

7) Kostic, S., Vasovic, N., Todorovic, K., Samcovic, A. Application of artificial neural networks for slope stability analysis in geotechnical practice (2016) 2016 13th Symposium on Neural Networks and Applications, NEUREL 2016, art. no. 7800125, .

8) Al-zharani, T.M., Demirboga, R., Khushefati, W.H., Taylan, O. Measurement and prediction of correction factors for very high core compressive strength by using the adaptive neuro-fuzzy techniques (2016) Construction and Building Materials, 122, pp. 320-331.

9) Ahmadi Maleki, M. and M. Emami, Application of SVM for investigation of factors affecting compressive strength and consistency of geopolymer concretes. Journal of civil Engineering Materials Application 2019. 3(2): p. 95-101.

The effects of silica modulus and aging on compressive strength of pumice-based geopolymer composites

1) Haddad, R.H., Lababneh, Z.K. Geopolymer composites using natural pozzolan and oil-shale ash base materials: A parametric study (2020) Construction and Building Materials, 240, art. no. 117899, .

2) Amulya, S., Ravi Shankar, A.U. Replacement of Conventional Base Course with Stabilized Lateritic Soil Using Ground Granulated Blast Furnace Slag and Alkali Solution in the Flexible Pavement Construction (2020) Indian Geotechnical Journal, 50 (2), pp. 276-288. 2)

3) Amulya, S., Ravi Shankar, A.U. Use of Stabilized Lateritic and Black Cotton Soils as a Base Course Replacing Conventional Granular Layer in Flexible Pavement (2020) International Journal of Geosynthetics and Ground Engineering, 6 (1), art. no. 5, .

4) Shivaramaiah, A., Ravi Shankar, A.U., Singh, A., Pammar, K.H. Utilization of lateritic soil stabilized with alkali solution and ground granulated blast furnace slag as a base course in flexible pavement construction (2020) International Journal of Pavement Research and Technology, .

5) Barone, G., Finocchiaro, C., Lancellotti, I., Leonelli, C., Mazzoleni, P., Sgarlata, C., Stroscio, A. Potentiality of the Use of Pyroclastic Volcanic Residues in the Production of Alkali Activated Material (2020) Waste and Biomass Valorization,

6) Rashad, A.M. An Overview of Pumice Stone as a Cementitious Material – the Best Manual for Civil Engineer (2020) Silicon, . 6)

7) Kantarcı, F., Türkmen, İ., Ekinci, E. Optimization of production parameters of geopolymer mortar and concrete: A comprehensive experimental study (2019) Construction and Building Materials, 228, art. no. 116770, . Cited 2 times.

8) Özcan, A., Karakoç, M.B. Evaluation of sulfate and salt resistance of ferrochrome slag and blast furnace slag-based Terms and conditions Privacy policy Copyright © 2020 Elsevier B.V. All rights reserved. Scopus® is a registered trademark of Elsevier B.V. geopolymer concretes (2019) Structural Concrete, 20 (5), pp. 1607-1621. Cited 3 times

9) Firdous, R., Stephan, D. Effect of silica modulus on the geopolymerization activity of natural pozzolans (2019) Construction and Building Materials, 219, pp. 31-43. Cited 3 times.

 10) Silva, G., Castañeda, D., Kim, S., Castañeda, A., Bertolotti, B., Ortega-San-Martin, L., Nakamatsu, J., Aguilar, R. Analysis of the production conditions of geopolymer matrices from natural pozzolana and fired clay brick wastes (2019) Construction and Building Materials, 215, pp. 633-643. Cited 9 times.

11) Xing, J., Zhao, Y., Qiu, J., Sun, X. Microstructural and mechanical properties of alkali activated materials from two types of blast furnace slags (2019) Materials, 12 (13), art. no. 2089, . Cited 8 times.

12) Haddad, R.H., Ashteyat, A.M., Lababneh, Z.K. Producing geopolymer composites using oil shale ash (2019) Structural Concrete, 20 (1), pp. 225-235. Cited 2 times.

13) Mucsi, G., Szabó, R., Egyed, B., Kristály, F., Rácz, Á., Gombkötő, I., Nagy, S., Kumar, S. Altering reactivity of pumice by fine grinding for its use as alkali activated cement (AAC) raw material (2019) IMPC 2018 - 29th International Mineral Processing Congress, pp. 3147-3155.

14) Amulya, S., Ravi Shankar, A.U., Panditharadhya, B.J. Durability Studies on the Lateritic Soil Stabilized with GGBS and Alkali Solutions (2019) Airfield and Highway Pavements 2019: Testing and Characterization of Pavement Materials - Selected Papers from the International Airfield and Highway Pavements Conference 2019, pp. 560-568. 15)

15) Assaedi, H., Alomayri, T., Shaikh, F., Low, I.-M. Influence of nano silica particles on durability of flax fabric reinforced geopolymer composites (2019) Materials, 12 (9), art. no. 1459, . Cited 5 times.

16) Maras, M.M., Kose, M.M. Mechanical and microstructural properties of polypropylene fiber-reinforced geopolymer composites (2019) Journal of Fiber Science and Technology, 75 (5), pp. 35-46.

17) Qiu, J., Zhao, Y., Xing, J., Sun, X. Fly Ash/Blast Furnace Slag-Based Geopolymer as a Potential Binder for Mine Backfilling: Effect of Binder Type and Activator Concentration (2019) Advances in Materials Science and Engineering, 2019, art. no. 2028109, . Cited 8 times

 18) El-Naggar, M.R., El-Sherief, E.A., Mekhemar, H.S. Performance of geopolymers for direct immobilization of solvent extraction liquids: Metakaolin/LIX-84 formulations (2018) Journal of Hazardous Materials, 360, pp. 670-680. Cited 4 times.

19) Top, S., Vapur, H. Effect of basaltic pumice aggregate addition on the material properties of fly ash based lightweight geopolymer concrete (2018) Journal of Molecular Structure, 1163, pp. 10-17. Cited 7 times.

20) Çetinkaya, S., Kurt, H., Kütük, N. Terms and conditions Privacy policy Copyright © 2020 Elsevier B.V. All rights reserved. Scopus® is a registered trademark of Elsevier B.V. Lightweight geopolymer made of pumice with various aluminum powder ratios (2017) Acta Physica Polonica A, 132 (3), pp. 544-545. Cited 1 time

21) Assaedi, H., Shaikh, F.U.A., Low, I.M. Effect of nanoclay on durability and mechanical properties of flax fabric reinforced geopolymer composites (2017) Journal of Asian Ceramic Societies, 5 (1), pp. 62-70. Cited 14 times.

22) Djobo, J.N.Y., Elimbi, A., Tchakouté, H.K., Kumar, S. Volcanic ash-based geopolymer cements/concretes: the current state of the art and perspectives (2017) Environmental Science and Pollution Research, 24 (5), pp. 4433-4446. Cited 17 times

 23) Yan, B., Duan, P., Ren, D. Mechanical strength, surface abrasion resistance and microstructure of fly ash-metakaolin-sepiolite geopolymer composites (2017) Ceramics International, 43 (1), pp. 1052-1060. Cited 6 times.

24) Pu, S., Duan, P., Yan, C., Ren, D. Influence of sepiolite addition on mechanical strength and microstructure of fly ash-metakaolin geopolymer paste (2016) Advanced Powder Technology, 27 (6), pp. 2470-2477. Cited 5 times.

25) Yankwa Djobo, J.N., Elimbi, A., Kouamo Tchakouté, H., Kumar, S. Mechanical properties and durability of volcanic ash based geopolymer mortars (2016) Construction and Building Materials, 124, pp. 606-614. Cited 38 times.

 26) Haddad, R.H., Alshbuol, O. Production of geopolymer concrete using natural pozzolan: A parametric study (2016) Construction and Building Materials, 114, pp. 699-707. Cited 27 times.

27) Duan, P., Yan, C., Zhou, W., Luo, W. Fresh properties, mechanical strength and microstructure of fly ash geopolymer paste reinforced with sawdust (2016) Construction and Building Materials, 111, pp. 600-610. Cited 22 times.

28) Yankwa Djobo, J.N., Elimbi, A., Tchakouté, H.K., Kumar, S. Mechanical activation of volcanic ash for geopolymer synthesis: Effect on reaction kinetics, gel characteristics, physical and mechanical properties (2016) RSC Advances, 6 (45), pp. 39106-39117. Cited 40 times.

29) Conceição, L.C.S., Avaliação de parâmetros físico-químicos na produção de geopolímeros constituídos por vidro vulcânico e silicato de sódio alternativo. 2019.

30) Demir, S., ınvestıgatıon of the effect of chemıcal composıtıon on compressıve strength of kaolıne and sodıum sılıcate based ınorganıc bınder. 2019.

31) Pérez Cortés, P., Ceniza de bagazo de caña para la síntesis de nuevos cementos compósitos con ceniza volante. 2016.

32) Toufigh, V., M. Barzegari Dehaji, and K. Jafari, Experimental investigation of stabilisation of soils with Taftan pozzolan. European Journal of Environmental Civil Engineering 2018: p. 1-24.

33) Kumar, S., Jean Noël Yankwa Djobo, Antoine Elimbi, Hervé Kouamo Tchakouté.

34) Indu, P. and S. Greeshma, The Technology of Geopolymer-State of the Art.

35) Jagadeeswari, K., B.K. Singh, and P. Harish, Effect of Alkali Activators on Different Curings of Compressive Strengths of Geopolymer Concrete.

The Effect of Initial Geometric Imperfection on the Load Bearing Capacity of Double Layer Barrel Vault Space Structures

1) Mousavi, S., R. Najafpour, and M. Sheidaii, Investigating the effect of restraints’ configuration on resistance of double layer braced barrel vaults to Progressive collapse. International Academic Institute for Science Technology, 2019. 6(1): p. 26-38.

2) Garcia, A.A., Integrating Manufacturing Geometric Imperfections in the Inelastic Behavior Modeling of Joints Used in Three-Dimensional Structures. 2017.

3) Vazna, R.V. and M.J.E.S. Zarrin, Sensitivity analysis of double layer Diamatic dome space structure collapse behavior. 2020. 212: p. 110511.

4) Noori, M., et al., başlangiç eğrilik kusurlarinin mesnetlenme durumu ve modül sayisina göre düzlemsel çift tabakali uzay kafes sistemlerin davranişina etkisi. Uludağ University Journal of The Faculty of Engineering. 24(3): p. 31-46.

5) Kawaguchi, K., M. Ohsaki, and T. Takeuchi, Effect of member length imperfection on stability behavior of double layer pellevated dome. 2016.

Effects of elevated temperature on pumice based geopolymer composites

1) Rashad, A.M. An Overview of Pumice Stone as a Cementitious Material – the Best Manual for Civil Engineer (2020) Silicon, .

2) Djobo, J.N.Y., A. Elimbi, and D.S.A.S. Stephan, Phase and dimensional stability of volcanic ash-based phosphate inorganic polymers at elevated temperatures. SN Applied Sciences, 2020. 2: p. 1-12.

Effect of heat treatment temperature on ground pumice activation in geopolymer composites

1) Omer, S.A., Demirboga, R., Khushefati, W.H. Relationship between compressive strength and UPV of GGBFS based geopolymer mortars exposed to elevated temperatures (2015) Construction and Building Materials, 94, art. no. 6821, pp. 189-195. Cited 33 times.

The influence of calcium nitrate as antifreeze admixture on the compressive strength of concrete exposed to low temperatures

1) Huang, G., Pudasainee, D., Gupta, R., Liu, W.V. The performance of calcium sulfoaluminate cement for preventing early-age frost damage (2020) Construction and Building Materials, 254, art. no. 119322, .

2) Li, P., Gao, X., Wang, K., Tam, V.W.Y., Li, W. Hydration mechanism and early frost resistance of calcium sulfoaluminate cement concrete (2020) Construction and Building Materials, 239, art. no. 117862, .

3) Liu, Y., Sun, F., Yu, K., Yang, Y. Experimental and numerical research on development of synthetic heat storage form incorporating phase change materials to protect concrete in cold weather (2020) Renewable Energy, 149, pp. 1424-1433.

 4) Vdovin, E.A., Stroganov, V.F. Modification of cement-bound mixtures with sodium formate additives for the construction of pavement bases at low air temperatures (2020) IOP Conference Series: Materials Science and Engineering, 786 (1), art. no. 012065, .

5) Li, Q., Wang, Y., Geng, G., Chen, H., Hou, P., Cheng, X., Monteiro, P.J.M., Huang, S., Kim, J.H. Microstructural Study of Hydration of C3S in the Presence of Calcium Nitrate Using Scanning Transmission X-Ray Microscopy (STXM) (2020) Journal of Nanomaterials, 2020, art. no. 8419130, .

6) Huang, R., Liao, Y., Xu, Y. Effect of calcium ammonium nitrate on the early age strength enhancing behavior of calcium sulfoaluminate cement paste at room temperature [Article@常温下硝酸铵钙对硫铝酸盐水泥的早强作用] (2019) Gongneng Cailiao/Journal of Functional Materials, 50 (11), pp. 11155-11160.

7) Huang, G., Pudasainee, D., Gupta, R., Liu, W.V. Hydration reaction and strength development of calcium sulfoaluminate cement-based mortar cured at cold temperatures (2019) Construction and Building Materials, 224, pp. 493-503. Cited 4 times.

8) Zhang, J., Xie, L., Huang, X., Liang, Z., Liu, B., Han, N., Xing, F., Deng, X. Enhanced calcite precipitation for crack healing by bacteria isolated under low-nitrogen conditions (2019) Applied Microbiology and Biotechnology, 103 (19), pp. 7971-7982.

9) Chol, H., Lee, J., Lee, B., Nam, J. Shrinkage properties of concretes using blast furnace slag and frost-resistant accelerator (2019) Construction and Building Materials, 220, pp. 1-9.

10) Zhang, G., Yu, H., Li, H., Yang, Y. Experimental study of deformation of early age concrete suffering from frost damage (2019) Construction and Building Materials, 215, pp. 410-421. Cited 3 times

11) Abayou, A., Yasien, A.M., Bassuoni, M.T. Properties of nanosilica-modified concrete cast and cured under cyclic freezing/low temperatures (2019) Advances in Civil Engineering Materials, 8 (3), art. no. ACEM20190013, . Cited 1 time.

12) Xie, Y., Wang, X., Long, G., Ma, C. Quantitative analysis of the influence of subfreezing temperature on the mechanical properties of steam-cured concrete (2019) Construction and Building Materials, 206, pp. 504-511. Cited 9 times.

13) Milla, J., Hassan, M.M., Rupnow, T., Daly, W.H. Measuring the crack-repair efficiency of steel fiber reinforced concrete beams with microencapsulated calcium nitrate (2019) Construction and Building Materials, 201, pp. 526-538.

14) Arce, G.A., Hassan, M.M., Mohammad, L.N., Rupnow, T. Self-healing of SMA and steel-reinforced mortar with microcapsules (2019) Journal of Materials in Civil Engineering, 31 (2), art. no. 04018366, . Cited 1 time

15) Al-Ansari, M., Abu Taqa, A.G., Senouci, A., Hassan, M.M., Shaat, A. Effect of calcium nitrate healing microcapsules on concrete strength and air permeability (2019) Magazine of Concrete Research, 71 (4), pp. 195-206.

16) Polat, R., Demirboğa, R., Karagöl, F. Mechanical and physical behavior of cement paste and mortar incorporating nano-CaO (2019) Structural Concrete, 20 (1), pp. 361-370. Cited 2 times.

17) Ghosh, A.H., Das, B.B. Implication of concrete with chemical admixture cured in low temperature on strength, chloride permeability and microstructure (2019) Lecture Notes in Civil Engineering, 25, pp. 287-298.

18) Yasien, A., Abayou, A., Bassuoni, M.T. Performance of nano-modified concrete under freezing and low temperatures (2019) Sustainable Construction Materials and Technologies, 1, .

19) Gholami, S., Hu, J., Kim, Y.-R., Mamirov, M. Performance of Portland Cement-Based Rapid-Patching Materials with Different Cement and Accelerator Types, and Cement Contents (2019) Transportation Research Record, . Cited 1 time.

20) Liu, Y., Wang, M., Wang, W. Electric induced curing of graphene/cement-based composites for structural strength formation in deep-freeze low temperature (2018) Materials and Design, 160, pp. 783-793. Cited 3 times

21) Brzhanov, R.T., Pikus, G.A., Traykova, M. Methods of increasing the initial strength of winter concrete (2018) IOP Conference Series: Materials Science and Engineering, 451 (1), art. no. 012083, .

22) Liu, Y., Wang, M., Wang, W. Ohmic heating curing of electrically conductive carbon nanofiber/cement-based composites to avoid frost damage under severely low temperature (2018) Composites Part A: Applied Science and Manufacturing, 115, pp. 236-246. Cited 5 times.

23) Polat, R., Demirboğa, R., Karagöl, F. The influence of expanded perlite aggregate on compressive strength, linear autogenous shrinkage, restrained shrinkage, heat of hydration of cement-based materials (2018) Structural Concrete, 19 (6), pp. 1771-1781. Cited 2 times.

24) Zhang, S., Ji, G., Chen, J., Kong, X., Ma, F. Effects of Chemical and Mineral Admixtures on Negative Temperature Concrete in the Instant Freezing Condition of -10℃ [Article@-10℃即时受冻条件下外加剂和掺和料对负温混凝土性能影响] (2018) Jianzhu Cailiao Xuebao/Journal of Building Materials, 21 (4), pp. 649-655.

25) Vaitkevičius, V., Šerelis, E., Kerševičius, V. Effect of ultra-sonic activation on early hydration process in 3D concrete printing technology (2018) Construction and Building Materials, 169, pp. 354-363. Cited 5 times.

26) Li, G., Zhang, J., Song, Z., Shi, C., Zhang, A. Improvement of workability and early strength of calcium sulphoaluminate cement at various temperature by chemical admixtures (2018) Construction and Building Materials, 160, pp. 427-439. Cited 17 times

27) Wang, L., Zhang, H., Gao, Y. Effect of TiO2 nanoparticles on physical and mechanical properties of cement at low temperatures (2018) Advances in Materials Science and Engineering, 2018, art. no. 8934689, . Cited 3 times.

28) Costa, F.L., Dos Santos, I.L., Silvestro, L., Rodríguez, E.D., Kirchheim, A.P. Influence of the use of accelerating admixture based on calcium nitrate in the performance of fly ash blended Portland cement mortars. [Article@Influência do uso de aditivo acelerador de resistência baseado em nitrato de cálcio no desempenho de argamassas de cimento Portland com adição de cinza volante] (2018) Revista Materia, 23 (3), art. no. e-12204, . Cited 1 time.

29) De Belie, N., Wang, J., Bundur, Z.B., Paine, K. Bacteria-based concrete (2018) Eco-efficient Repair and Rehabilitation of Concrete Infrastructures, pp. 531-567. Cited 4 times.

30) Polat, R., Demirboğa, R., Karagöl, F. The effect of nano-MgO on the setting time, autogenous shrinkage, microstructure and mechanical properties of high performance cement paste and mortar (2017) Construction and Building Materials, 156, pp. 208-218. Cited 20 times

31) Azenha, M., Lucas, C., Granja, J.L., Carlos-Alves, I., Guimarães, E. Glycerol resulting from biodiesel production as an admixture for cement-based materials: an experimental study (2017) European Journal of Environmental and Civil Engineering, 21 (12), pp. 1522-1538. Cited 2 times.

32) Hu, Y., Miao, G., Xiong, Y. Mechanical Properties and Hydration Characteristics of Concrete Subject to Subzero Temperature Condition (2017) Jianzhu Cailiao Xuebao/Journal of Building Materials, 20 (6), pp. 975-980. Cited 3 times

33) Kazempour, H., Bassuoni, M.T., Hashemian, F. Masonry mortar with nanoparticles at a low temperature (2017) Proceedings of Institution of Civil Engineers: Construction Materials, 170 (6), pp. 297-308. Cited 3 times.

34) Milla, J., Hassan, M.M., Rupnow, T. Evaluation of self-healing concrete with microencapsulated calcium nitrate (2017) Journal of Materials in Civil Engineering, 29 (12), art. no. 04017235, . Cited 2 times.

35) Choi, H., Zhang, W., Hama, Y. Method for determining early-age frost damage of concrete by using air-permeability index and influence of early-age frost damage on concrete durability (2017) Construction and Building Materials, 153, pp. 630-639. Cited 11 times.

36) Kičaite, A., Pundiene, I., Skripkiunas, G. The influence of calcium nitrate on setting and hardening rate of Portland cement concrete at different temperatures (2017) IOP Conference Series: Materials Science and Engineering, 251 (1), art. no. 012017, . Cited 3 times.

37) Abbaszadeh, R., Modarres, A. Freeze-thaw durability of non-air-entrained roller compacted concrete designed for pavement containing cement kiln dust (2017) Cold Regions Science and Technology, 141, pp. 16-27. Cited 7 times.

38) Choi, S.-H., Lee, H.-S., Choi, H.-K., Kim, H.-C., Min, T.-B., Ismail, M.A. Experimental research on development of heated form incorporating exothermic reaction powder to protect concrete in cold weather (2017) Construction and Building Materials, 135, pp. 30-36. Cited 3 times.

39) Qin, L.-K., Song, H.-W., Yang, S.-H. Research of the uniaxial compressive property of the concrete mixed with high-content fly ash in seawater (2017) Key Engineering Materials, 723 KEM, pp. 760-763.

40) Kocab, D., Danek, P., Misak, P., Topolar, L., Possl, P. Experimental Analysis of the Development of Elastic Properties and Strength under Different Ambient Temperature during the Hardening of Concrete (2017) Procedia Engineering, 195, pp. 102-107. Cited 2 times.

41) Arce, G.A., Hassan, M.M., Mohammad, L.N., Rupnow, T. Characterization of self-healing processes induced by calcium nitrate microcapsules in cement mortar (2017) Journal of Materials in Civil Engineering, 29 (1), art. no. 04016189, . Cited 5 times.

42) Zhang, J., Mai, B., Cai, T., Luo, J., Wu, W., Liu, B., Han, N., Xing, F., Deng, X. Optimization of a binary concrete crack self-healing system containing bacteria and oxygen (2017) Materials, 10 (2), art. no. 116, . Cited 19 times.

43) Won, J.-Y., Lee, S.-H., Park, T.-W., Nam, K.-Y. Basic applicability of an insulated gang form for concrete building construction in cold weather (2016) Construction and Building Materials, 125, pp. 458-464. Cited 3 times.

44) Zhang, J.L., Wu, R.S., Li, Y.M., Zhong, J.Y., Deng, X., Liu, B., Han, N.X., Xing, F. Screening of bacteria for self-healing of concrete cracks and optimization of the microbial calcium precipitation process (2016) Applied Microbiology and Biotechnology, 100 (15), pp. 6661-6670. Cited 20 times.

45) Polat, R. The effect of antifreeze additives on fresh concrete subjected to freezing and thawing cycles (2016) Cold Regions Science and Technology, 127, pp. 10-17. Cited 21 times.

46) Skripkiunas, G., Kičaite, A., Macijauskas, M. The influence of calcium nitrate on the plasticizing effect of cement paste (2016) Journal of Civil Engineering and Management, 22 (3), pp. 434-441. Cited 4 times.

47) Kim, H.-C., Min, T.-B., Mun, Y.-B., Kim, J.-Y., Choi, H.-K., Lee, H.-S. Effect of high early strength cement and accelerator concentrations on the low-temperature compressive strength of concrete (2016) Journal of Ceramic Processing Research, 17 (6), pp. 641-647. Cited 1 time.

48) Fan, Y., Zhang, S., Wang, Q., Shah, S.P. Effects of nano-kaolinite clay on the freeze-thaw resistance of concrete (2015) Cement and Concrete Composites, 62, pp. 1-12. Cited 28 times.

49) Dudin, M.O., Vatin, N.I., Barabanshchikov, Y.G. Modeling a set of concrete strength in the program ELCUT at warming of monolithic structures by wire (2015) Magazine of Civil Engineering, 54 (2), pp. 33-45. Cited 22 times.

50) Karagol, F., Demirboga, R., Khushefati, W.H. Behavior of fresh and hardened concretes with antifreeze admixtures in deep-freeze low temperatures and exterior winter conditions (2015) Construction and Building Materials, 76, pp. 388-395. Cited 30 times.

51) Fleysher, A., Tokarchuk, V., Sviderskiy, V. Use of the admixture consisting of products of processed polymer fraction of municipal solid waste as a cement hardening accelerator (2015) Eastern-European Journal of Enterprise Technologies, 4 (6), pp. 23-29. Cited 2 times.

52) Demirboǧa, R., Karagöl, F., Polat, R., Kaygusuz, M.A. The effects of urea on strength gaining of fresh concrete under the cold weather conditions (2014) Construction and Building Materials, 64, pp. 114-120. Cited 19 times.

The correlation between aggregate shape and compressive strength of concrete: Digital image processing approach

1) Chung, S.-Y., et al., Evaluation of the effects of crushed and expanded waste glass aggregates on the material properties of lightweight concrete using image-based approaches. 2017. 10(12): p. 1354.

2) Trejo, D. and J. Chen, Effects of extended discharge time and revolution counts for ready-mixed concrete. 2014, Washington (State). Dept. of Transportation. Research Office.

3) Al-Zboon, K.K., J.J.E.J.o.E. Al-Zou’by, and C. Engineering, Effect of volcanic tuff on the characteristics of cement mortar. 2016. 20(5): p. 520-531.

4) Moaveni, M., Advanced image analysis and techniques for degradation characterization of aggregates. 2015, University of Illinois at Urbana-Champaign.

5) Kurpinska, M. and L.J.M. Kułak, Predicting Performance of Lightweight Concrete with Granulated Expanded Glass and Ash Aggregate by Means of Using Artificial Neural Networks. 2019. 12(12): p. 2002.

6) Al-Zboon, K.K. and J.J.J.J.o.C.E. Zou’by, Natural volcanic tuff for sustainable concrete industry. 2017. 11(3).

7) Roy, S., et al., Investigation on applicability of spherical shaped EAF slag fine aggregate in pavement concrete–Fundamental and durability properties. 2018. 192: p. 555-568.

8) Zareei, S.A., et al., Experimental evaluation of eco-friendly light weight concrete with optimal level of rice husk ash replacement. 2017. 3(10): p. 972-986.

9) ROY, S., et al., Investigation of fresh behaviors and mechanical properties of concrete produced by air granulated spherical shaped EAF slag fine aggregate. 2018. 40(1): p. 1947-1952.

10) Marie, I., R.J.E.S. Mujalli, and a.I.J. Technology, Effect of design properties of parent concrete on the morphological properties of recycled concrete aggregates. 2019. 22(1): p. 334-345.

11) Skoczylas, K. and T.J.J.o.E.E. Rucińska, Influence of Grain Shape of Waste Glass Aggregate on the Properties of Cement Mortar. 2020. 21(1): p. 148-159.

12) Jang, Y., et al., Image based Concrete Compressive Strength Prediction Model using Deep Convolution Neural Network. 2018. 19(4): p. 43-51.

13) Ostrowski, K., et al., Potential use of granite waste sourced from rock processing for the application as coarse aggregate in high-performance self-compacting concrete. 2020. 238: p. 117794.

14) Arasan, S., S. Akbulut, and A.S. Hasiloglu, ALTERATION OF BASALT AND CALCAREOUS AGGREGATES'ROUNDNESS WITH DIFFERENT ABRASION METHODS. 2013.

15) Haavisto, J. and A.J.L.t.j.s. Laaksonen, Betonin puristuslujuus-Esiselvitys: Tausta ja määrittäminen koetuloksista. 2018.

16) Huang, H., et al., Size and Shape Determination of Riprap and Large-sized Aggregates Using Field Imaging. 2020, Illinois Center for Transportation/Illinois Department of Transportation.

17) Siregar, A.P., E.L. Pasaribu, and I.W. Suarnita. The effect of coarse aggregate hardness on the fracture toughness and compressive strength of concrete. in MATEC Web of Conferences. 2019. EDP Sciences.

18) Thaker, P. and N. Arora. Measurement of Aggregate Size and Shape Using Image Analysis. in National Conference on Structural Engineering and Construction Management. 2019. Springer.

Masonry Infill Walls Effect in Short Column Formation in Rc Buildings: A Case Study

1.         Bayrak, O.F., et al., Investigating the effect of infill walls on steel frame structures. 2018. 4(1): p. 27-32.

Na2O, silika modülü, su/bağlayıcı oranı ve yaşlanmanın cüruf tabanlı geopolimerlerin basınç mukavemetinde olan etkileri

1.         Doğan-Sağlamtimur, N. and A.J.Ö.H.Ü.M.B.D. Bilgil, atik kazan alti külü ve pomza elek alti atiğindan geopolimer yapi malzemesi üretimi. 2018. 7(2): p. 590-599.