Doç. Dr. Mürsel Erdal

Teknoloji Fakültesi > İnşaat Mühendisliği

Atıf Yapılan Makale

Aruntaş, H.Y., Cemalgil, S., Şimşek, O., Durmuş, G., Erdal, M., Effects of super plasticizer and curing conditions on properties of concrete with and without fiber, Materials Letters, 62(19): 3441-3443 (2008).

Atıf Yapan Makaleler

1. Glodkowska, W., Kobaka, J., Application of waste sands for making industrial floors, Rocznik Ochrona Srodowiska, 11: 193-206 (2009).

2. Asokan, P., Osmani, M., Price A. D. F., Improvement of the mechanical properties of glass fibrereinforced plastic waste powder filled concrete, Construction and Building Materials, 24(4): 448-460 (2010).

3. Aruntaş, H.Y., Tekin, I., Birgul, R., Determining Hounsfield Unit values of mortar constituents by computerized tomography, Measurement, 43(3): 410-414 (2010).

4. Nili, M., Afroughsabet, V., The effect of silica fume and polypropylene fibers on the impact resistance and mechanical properties of concrete, Construction and Building Materials, 24(6): 927-933 (2010).

5. Nili, M., Afroughsabet, V., Combined effect of silica fume and steel fibers on the impact resistance and mechanical properties of concrete, International Journal of Impact Engineering, 37(8): 879-886 (2010).

6. Baroninsh, J., Lagzdina, S., Krage, L., Shahmenko, G., Influence of the dosage of super plasticizer on properties of high performance concrete, IOP Conference Series: Materials Science and Engineering, 25: 1-6 (2011).

7. Wang D., Meng, Y., Zhang, Y., Mechanical properties of concrete mixed with SiO2 and CaCO3 nanoparticles, Frontiers of Green Building, Materials and Civil Engineering, 71-78: 1233-1236 (2011).

8. Chen, Z., Yang, Y., Yao, Y., Quasi-static and dynamic compressive mechanical properties of engineered cementitious composite incorporating ground granulated blast furnace slag, Materials & Design, 44: 500-508 (2013).

9. Sonphuak, W., Rojanarowan, N., Strength improvement of fibre cement product, International Journal of Industrial Engineering Computations, 4(4): 505-516 (2013).

10. Barbudo, A., de Brito, J., Evangelista, L., Bravo, M., Agrela, F., Influence of water-reducing admixtures on the mechanical performance of recycled concrete, Journal of Cleaner Production, 59: 93-98 (2013).

11. Bolat, H., Simsek, O., Cullu, M., Can, O., The effects of macro synthetic fiber reinforcement use on physical and mechanical properties of concrete, Composite Part B: Engineering, 61: 191-198 (2014).

12. Glodkowska, W., Laskowska-Bury, J., Waste sands as a valuable aggregates to produce fibre-composites, Rocznik Ochrona Srodowiska, 17: 507-525 (2015).

13. Baronins, J., Shishkin, A., Setina, J., Mironovs, V., Influence of Al-W-B recycled composite material on the properties of high performance concrete, Construction Science (De Gruyter), 17: 4-10 (2015).

14. Suseela, K., Baskaran, T., Experimental investigation on structural members using m-sand base high performance concrete, International Journal of Control Theory and Applications, 9(34): 245-256 (2016).

15. Nili, M., Ghorbankhani, A.H., AlaviNia, A., Zolfaghari, M., Assesing the impact strength of steel fibre-reinforced concrete under quasi-static and high velocity dynamic impacts, Construction and Building Materials, 107: 264-271 (2016).

16. Afroughsabet, V., Biolzi, L., Ozbakkaloglu, T., High-performance fiber-reinforced concrete: a review, Journal of Materials Science, 51(14): 6517-6551 (2016).

Atıf Yapılan Makale

Erdal, M., Prediction of the compressive strength of vacuum processed concretes using artificial neural network and regression technique, Scientific Research and Essay, 4(10): 1057-1065 (2009).
 
Atıf Yapan Makaleler

1. Breysse, D., Nondestructive evaluation of concrete strength: An historical review and a new perspective by combining NDT methods, Construction and Building Materials, 33: 139-163 (2012).

2. Lande, P. S., Gadewar, A. S., Application of artificial neural networks in prediction of compressive strength of concrete by using ultrasonic pulse velocities, IOSR Journal of Mechanical and Civil Engineering, 3 (1): 34-42 (2012).

3. Singh, V. P., Kotiyal, Y. C., Prediction of compressive strength using Artificial Neural Network, World Academi of Science, Engineering and Tehnology International Journal of Civil, Environmental, Structural, Construction and Architectural Engineering, 7 (12): 976-980 (2013).

4. Nagwani, N. K., Deo, S.V., Estimating the concrete compressive strength using hard clustering and fuzzy clustering based regression techniques, The Scientific World Journal, (2014): 381549 16 pages, (2014).

5. Chernousov, N.N., Chernousov, R.N., Suxanov, A.V., Bondarev, B.A., Influence of the age of fine-grained cinder concrete on its strength characteristics, Scientific Herald of the Voronezh State University of Architecture & Civil Engineering Construction & Architecture, 3: 73-84 (2015).

6. Amini, K., Jalalpour, M., Delatte, N., Advancing cocnrete strength prediction using non-destructive testing: Development and verification of a generalizable model, Construction and Building Materials, 102: 762-768 (2016).

7. Johnson, O.A., Madzlan, N., Kamaruddin, I., Oloruntobi, O.O., Abdulrahman, H.S., Application of artificial neural network in predicting compressive strength of vege block, Research Journal of Applied Scieces, Engineering and Technology, 12(1): 37-42 (2016).

8. Vividelli B., Subbulakshmi T., Prediction of the combined method for evaluating compressive strength of HPC by using artificial neural network, International Journal of Resent Scientific Research, 7(6): 12004-12009 (2016).

9. Alencar, D., Carvalho, D., Koenders, E., Maurao, F., Rocha, L., Devising a computational model based on data mining techniques to predict concrete compressive strength, Procedia Computer Science, 108: 455-464 (2017).

Atıf Yapılan Makale

Erdal, M., Improving out-of-plane strength and ductility of unreinforced masonry walls in low-rise buildings by centrally applied FRP strip, International Journal of Physical Sciences, 5(2): 116-131 (2010).

Atıf Yapan Makaleler

1. Kanit, R., Erdal, M., Can, Ö., Assessing the experimental behaviour of load bearing masonry walls subjected to out-of-plane loading, Scientific Research and Essays, 5(21): 3336-3344 (2010).

2. Cogurcu, M. T.,  Donduren, M. S., Kamanli, M., Kanit, R., Altin, M., Mechanical behaviours of masonry walls constructed with different methods under reverse-cycling loads, Scientific Research and Essays, 6(7): 1479-1488 (2011).

3. Kamanli, M., Donduren, M. S., Cogurcu, M. T., Altin, M., Modelling and experimental study of mechanical behaviour of walls produced by different knitting, Materials Testing, 53(6): 276-382 (2011).

4. Hasan, N. S., Sayed, S., Sobuz, H. R., Loannou, C., Effect of non sway and sway methods for analysis and design of reinforced concrete frames for multi-storey building, International Journal of Physical Sciences, 6(17): 4294-4301 (2011).

5. Donduren, M. S., Kanit, R., Kalkan, I., Gencel, O., Influence of special plaster on the out-of-plane behavior of masonry walls, Earthquake and Structures, 10(4): 769-788 (2016).

6. Kalkan, N., Kanit, R., Testing shotcrete reinforced masonry walls under out of plane cyclic load, Romanian Journal of Materials, 46(3): 383-391 (2016).

 

Atıf Yapılan Makale

Şimşek, O.,  Erdal, M., Sancak, E., The effect of silica fume usage to the flexural strength of concrete reinforced with steel fibres, Journal of the Faculty of Engineering and Architecture of Gazi University, 20(2): 211-215 (2005).
 
Atıf Yapan Makaleler

1. Aruntaş, H.Y., Cemalgil, S., Şimşek, O., Durmuş, G., Erdal, M., Effects of super plasticizer and curing conditions on properties of concrete with and without fiber, Materials Letters, 62(19): 3441-3443 (2008).

2. Kocak, Y., A study on the effect of fly ash and silica fume substituted cement paste and mortars, Scientific Research and Essay, 5(9): 990-998 (2010).

 

Atıf Yapılan Makale

Kanit, R., Erdal, M., Can, Ö., Assessing the experimental behaviour of load bearing masonry walls subjected to out-of-plane loading, Scientific Research and Essays, 5(21): 3336-3344 (2010).
 
Atıf Yapan Makaleler

1. Saiful Islam, A. B. M., Jameel, S. I., Salman, F. A., Jummat, M. Z., Engendering earthquake response spectra for Dhaka region usable in dynamic analysis of structures, Scientific Research and Essays, 6(16): 3519-3530 (2011).