
Tijana Ivanović
Research Assistant
Department of Materials Science (MS)
Phone:
E-mail: tijana.ivanovic@imsi.rs; tijana.ivanovic@imsi.bg.ac.rs
Curriculum vitae
Education:
2015-present: Ph.D. student at the Faculty of Technology and Metallurgy (Department of Chemical Engineering), University of Belgrade, Serbia.
2013: M.Sc. in Chemical Engineering, Faculty of Technology and Metallurgy, University of Belgrade, Serbia.
2012: B.Sc. in Chemical Engineering, Faculty of Technology and Metallurgy, University of Belgrade, Serbia.
Work Experience:
2016-present: Research Trainee, Institute for Multidisciplinary Research, University of Belgrade.
2012-2013: Researcher in Water quality laboratory, The Jaroslav Černi Institute for the Development of Water Resources, Belgrade, Serbia.
Research Interests:
Geopolymers
Valorization of mineral industrial waste based on fly ash from thermal power plants and ground granulated blast furnace slag in building materials industry.
Thermodynamics of solutions
Other Professional Activities:
June 2017, SIM User Forum, in Antwerp, Belgium with poster: T. Ivanovic, Z. Cheng, L. Kriskova, L. Arnout, A. Di Maria, S. Onisei, L. Machiels, K. Van Acker, M. Guo, B. Blanpain, Y. Pontikes, „The development of clean slag for the production novel binders and building product within SIM MaReS SUPERMEX project.“
March 2017 – August 2017, Professional development in Belgium at the University of Leuven (KU Leuven) at the Material science department. Participant within project SUPERMEX (Sustainable transformation of new and landfilled solid industrial residues into metals and inorganic polymers using a SuperMetalEXtractor)
January 2017, Slovenian National Building And Civil engineering institute, Ljubljana, STSM visit under COST Action TU1301
September 2016, Participant of „3rd NORM4Building Training School on Reuse of NORM in Building Materials“, Athens.
Representative publications
1. |
Nikolić V., Komljenović M, Džunuzović N., Ivanović T., Miladinović Z. (2017) Immobilization of hexavalent chromium by fly ash-based geopolymers. Composites Part B 112C: 213-223 IF=3.850 (3.901); Engineering, Multidisciplinary (4/85) – ID=1272 |
2. |
T. Ivanović, D. Popović, J. Rard, S. Grujić, Z. Miladinović, J. Miladinović (2017), Isopiestic determination of the osmotic and activity coefficients of the {yMg(NO3 )2 + (1 −y)MgSO4}(aq) system at T = 298.15 K, The Journal of Chemical Thermodynamics 113 (2017) 91-103. – ID=1450 |
3. |
N. Dzunuzovic, M. Komljenovic, V. Nikolic, T. Ivanovic (2017), External sulfate attack on alkali-activated fly ash-blast furnace slag composite, Construction and Building Materials 157 (2017) 737–747. – ID=1449 |
Current projects
Project ID
|
Project Title
|
Financial Source
|
My Status
|
---|---|---|---|
TR34026 | GEOPOLYMERS – Technology for converting the industrial waste into functional materials | Ministry of Education, Science and Technological Development of the Republic of Serbia | Member |
SPS 985402 (G5402) | Improved security through safer cementation of hazardous wastes | NATO Science for Peace and Security (SPS) Programme | Participant |
DS-2016-0051 | Fiber reinforced alkali activated composites (properties and selected durability aspects) | Member |