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: Compressive Strength, Corrosion Resistance, Cement, bending strength, Electrical impedance,
Abstract :
[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).
