Increasing of the cement strength and corrosion resistance of rebar inside it using silica nanoparticles
Subject Areas : Polymer
1 - Department of Engineering Sciences, Faculty of Advanced Technologies, University of MohagheghArdabili, Namin, Iran
Keywords:
Abstract :
In this work, silica nanoparticles were added to the mortar with one percent by weight of cement. To investigate the effect of these nanoparticles on the strength of cement, 7-day and 28-day strength according to ASTMC109 standard was obtained and compared with the results of the control sample. the results showed that these nanoparticles increase the compressive and bending strengths. To investigate this nanoparticles effect on the corrosion resistance of the rebar inside the cement, polarization and EIS tests were performed in 3.5% salt solution.The results of the polarization test showed that the sample with silicon dioxide nanoparticles has more corrosion potential and less corrosion current, which indicates less corrosion rate and less corrosion tendency of this sample compared to the control sample. EIS analysis showed that samples with the presence of silicon dioxide nanoparticles have higher electrical impedance than the other. By simulating the equivalent circuit, the reason for the higher electrical impedance of the mortar in the presence of Sio2 nanoparticles was investigated.The results showed that the reason for the increase in corrosion resistance and electrical impedance is the increase in electrical resistance, increase in ion diffusion and the decrease in capacitance of mortar.
[1]. T. M. Mendes, D. Hotza, W. L. Repette, Rev. Adv. Mater. Sci, 40, 89 (2015)
[2]. F. Sanchez, K. Sobolev, Construction and Building Materials, 24, 2060 (2010)
[3]. P. Cédric, Ultramicroscopy,100,331 (2004)
[4]. K. L. Scrivener, Nanotechnology in Construction ,3, 37 (2009).
[5]. W. Li, H. Zhang, Y. Gao, Advances in Materials Science and Engineering, 20,18 (2018).
[6]. S. Konstantin, M. F. Gutiérrez, American Ceramic Society Bulletin, 84,16 (2005)
[7]. D. George, Molecules, 25, 5364 (2020).
[8]. T.Michelle, R. Gholami, M. Ekhlasur, Journal of Petroleum Exploration and Production
Technology, 9, 329 (2019).
[9]. L.Gerrit, D.Stephan, Cement and Concrete Composites, 57,64 (2015)
[10]. M. Mohamed, Journal of Nanomaterials, 20, 19 (2019).
[11]. S.Treerat, N.Jaitanong, S. Narksitipan,Key Engineering Materials, 77, 2 (2018).
[12]. G.Ramasamy, S. Nithiyanantham, Advanced Science, Engineering and Medicine, 12, 348
(2020)
[13]. L. Jintao, Construction and Building Materials, 217, 352 (2019).
[14]. H. Elżbieta, Materials, 12, 326 (2019).
[15]. E. Gerasimova, Procedia Engineering, 150, 1553 (2016).
[16]. D. George, Molecules, 2, 5 (2020).
[17]. W. Li, H. Zhang, Y. Gao, Advances in Materials Science and Engineering, 20,18 (2018).
[18]. L. Moutei, MATEC Web of Conferences:EDP Sciences, 149, 01055 (2018).
[19]. A. Nazaril, Journal of American Science, 6, 6 (2010).
[20]. A. Nazari, S. Riahi, Sadhana, 36, 71 (2011).
[21]. A. Nazari, S. Riahi, Materials Research,13,485 (2010).
[22]. L. Guo, Construction and Building Materials, 201,623 (2019).
[23]. M. Qinyong, Y.Zhu , Underground space, 2, 175 (2017).
[24]. Y. Jingwei, B. Zhou, J. Xiao, Construction and Building Materials,150,49, (2017).
[25]. L. Qinghua, X. Gao, S. Xu, Cement and Concrete Composites, 72, 201 (2016).
[26]. E. Hossein, M. Vaghefi, K. Kowsari, Procedia Materials Science, 11, 594 (2015).
[27]. Z. Bingliu, Cement and Concrete Composites, 92, 7 (2018).
[28]. J. B. Wan, Ch. H. Kim, J. H. Lim, KSCE Journal of Civil Engineering, 11, 37 (2007).
[29]. W. Yansheng, Journal of Thermal Analysis and Calorimetry, 140, 2225 (2020).
[30]. R. Prashanth, S. S. Selvan, M. Balasubramanian, Rasayan J. Chem 12, 685 (2019).
[31]. L. Rui, Journal of Materials Science, 54, 444 (2019).
[32]. P. Hosseini, A. Booshehrian, A. Midair, Waste and Biomass Valorization, 2, 347 (2011).
[33]. S. Lok Pratap, International Journal of Concrete Structures and Materials, 9, 207 (2015).
[34]. M. Bashar, Case studies in construction materials, 8, 409 (2018).
[35]. Z. Chenglong, Y. Chen, Nanotechnology Reviews, 8, 562 (2019).
[36]. L. Qingjie, Y. Chen, Ch. Liu, Nanotechnology Reviews, 8,600 (2019).
[37]. H. Kang, Y. Chen, W. Xie., Nanotechnology Reviews, 8, 523 (2019).
[38]. L.Min, H. Tan, X. He, Construction and Building Materials,194, 350 (2019).
[39]. S. Steve, F. Shaikh, Journal of Advanced Concrete Technology,12, 178 (2014).
[40]. L. Hui, Composites part B: Engineering, 35, 185 (2004).
[41]. S. Rai, S. Tiwari, Today Proc., 5, 9196 (2018).
[42]. J. B. Wan, C.H. Kim, J. H. Lim, KSCE Journal of Civil Engineering, 11, 37 (2007)
[43]. F. Abdi, Chinese Physics B, 30, 3 (2021).
[44]. F. Abdi, H. Savaloni, Trans. Nonferrous Met. Soc. China, 27, 701 (2017).