University of Belgrade

Institute for
Multidisciplinary Research

Miroslav Komljenović
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Dr Miroslav Komljenović

Research Professor

Department of Materials Science (MS)

Phone: +381-11/2085-048

E-mail: miroslav.komljenovic@imsi.rs; miroslav@imsi.bg.ac.rs

Curriculum vitae

Education

 

1997: Ph.D. in Materials Science, Center for Multidisciplinary Studies, University of Belgrade.

 

1993: M.Sc. in Materials Science, Center for Multidisciplinary Studies, University of Belgrade.

 

1980: B.Sc. at the Faculty of Technology and Metallurgy, University of Belgrade.

 

Work Experience

 

2007-present: Research Professor, Institute for Multidisciplinary Research, University of Belgrade.

 

1998-2007: Senior Research Fellow (Research Associate Professor), Center for Multidisciplinary Studies, University of Belgrade.

 

1994-1998: Research Assistant, Center for Multidisciplinary Studies, University of Belgrade.

 

1992-1994: Researcher, Center for Multidisciplinary Studies, University of Belgrade.

 

1982-1992: Department for Chemistry and Binders, Institute for Materials Testing, Belgrade.

 

Scholarships and Awards

 

• Annual award for management, Institute for Materials Testing, Belgrade (1989).

 

Research Interests

 

• Quality control and testing of cements, binders, ceramics, concrete additives etc.

• Research and development of advanced building materials, production technologies and applications.

• Recycling of industrial waste and byproducts (secondary raw materials) in the building materials industry: fly ash, blast furnace slag, waste glass and waste ceramics in the production of cement, binders, concrete, ceramics, thermal insulating and fire resistant materials.

• Chemical and mechanical activation.

• Geopolymers.

 

Courses Taught

 

• “Calcium silicate materials”, Materials Science Program, Multidisciplinary postgraduate studies, University of Belgrade (2003-2005).

 

Other Professional Activities

 

• Managing committee membership:

 

2010-present: Member of the Master scientific committee for materials and chemical technologies, Ministry of Education and Science of the Republic of Serbia.

 

2008-present: Member of the Scientific Council, Institute for Multidisciplinary Research, University of Belgrade.

 

2008-2010: Member of the Governing board, Institute for Multidisciplinary Research, University of Belgrade.

 

 

• International scientific projects leader:

 

2007-2009: “Sustainable application of selected industrial waste materials in the cement and concrete industry”, ЕUREKA Project E!3688, Acronym: SASIWAM.

 

 

• National scientific projects leader:

 

2008-2010: “Geopolymers – new materials based on fly ash from thermal power plants within the frame of sustainable development concept”, Ministry of Science and Technological Development of the Republic of Serbia, Project No. TR19001, Technological development programme.

 

2005-2007: “Development of new types of hydraulic binders based on fly ash from thermal power plants”, Ministry of Science and Environmental Protection of the Republic of Serbia, Project No. TR6720B, Technological development programme.

 

 

• Head of the Department of Materials Science, Institute for Multidisciplinary Research, University of Belgrade (2006-2009).

 

• Foundation of the Laboratory for Electronic Microscopy, Institute for Multidisciplinary Research, University of Belgrade (2007).

 

• Head of the Department for Chemistry and Binders, Institute for Materials Testing, Belgrade (1989).

 

• Scientific association membership: Serbian Chemical Society, Serbian Society for Microscopy, Serbian Ceramic Society, Serbian Zeolite Association, European Microscopy Society.

 

Representative publications


International book chapters

1.

M. Komljenović, “Mechanical strength and Young’s modulus of alkali activated cement-based binders”. Chapter 7 in “Handbook of Alkali-Activated Cements, Mortars, and Concretes”. Publisher: Woodhead Publishing, 2014. Edition: Series in Civil and Structural Engineering. Editors: F. Pacheco-Torgal, J. A. Labrincha, C. Leonelli, A. Palomo, P. Chindaprasirt, pp.171-217. – ID=1047

Peer-reviewed international journals

1.

Marjanović N., Komljenović M., Baščarević Z., Nikolić V., Petrović R. (2015) Physical-mechanical and microstructural properties of alkali-activated fly ash-blast furnace slag blend. Ceramics International 41: 1421-1435 IF = 2.605 (2.540); Materials Science, Ceramics (4/26) – ID=1115

2.

Nikolić V., Komljenović M., Baščarević Z., Marjanović N., Miladinović Z., Petrović R. (2015) The influence of fly ash characteristics and reaction conditions on strength and structure of geopolymers, Construction and Building Materials 94: 361-370 – ID=1096

3.

N. Marjanović, M. Komljenović, Z. Baščarević, V. Nikolić, R. Petrović (2015), Physical–mechanical and microstructural properties of alkali-activated fly ash–blast furnace slag blends, Ceramics International 41, 1421– 1435. – ID=1046

4.

Marjanović N., Komljenović M., Baščarević Z., Nikolić V. (2014) Improving reactivity of fly ash and properties of ensuing geopolymers through mechanical activation, Construction and Building Materials 57:151-162. – ID=915

5.

Nikolić V., Komljenović M., Marjanović N., Baščarević Z., Petrović R. (2014) Lead immobilization by geopolymers based on mechanically activated fly ash, Ceramics International 40(6): 8479–8488 – ID=914

6.

Baščarević Z., Komljenović M., Miladinović Z., Nikolić V., Marjanović N., Petrović R. (2014) Impact of sodium sulfate solution on mechanical properties and structure of fly ash based geopolymers, Materials and Structures, 48, 683–697. – ID=916

7.

Baščarević Z., Komljenović M., Miladinović Z., Nikolić V., Marjanović N., Žujović Z., Petrović R. (2013) Effects of the concentrated NH4NO3 solution on mechanical properties and structure of the fly ash based geopolymers. Construction and Building Materials 41: 570-579. Construction & Building Technology 7/57, Materials Science, Multidisciplinary 54/241, 2.293 – ID=34

8.

Komljenović M., Baščarević Z., Marjanović N., Nikolić V. (2013) External sulfate attack on alkali-activated slag. Construction and Building Materials 49: 31–39. Construction & Building Technology 7/57, Materials Science, Multidisciplinary 54/241, 2.293 – ID=883

9.

Komljenović M., Baščarević Z., Marjanović N., Nikolić V. (2012) Decalcification resistance of alkali-activated slag. Journal of Hazardous Materials 233-234: 112-121. Engineering, Civil 2/122, Engineering, Environmental 5/42, Environmental Sciences 16/210, 3.925 – ID=32

10.

Komljenović M., Baščarević Z., Bradić V. (2010) Mechanical and microstructural properties of alkali-activated fly ash geopolymers. Journal of Hazardous Materials 181(1-3): 35-42. Engineering, Civil 2/115, Engineering, Environmental 6/45, Environmental Sciences 18/193, 3.723 – ID=30

11.

Komljenović M., Petrašinović-Stojkanović Lj., Baščarević Z., Jovanović N. (2009) Fly Ash as the Potential Raw Mixture Component for Portland Cement Clinker Synthesis. Journal of Thermal Analysis and Calorimetry 96(2): 363-368 – ID=29

12.

Mitrović A.A., Komljenović M.M., Ilić B.R. (2009) Research of possibilities for use domestic kaolin clays for production of metakaolin. Chemical Industry 63(2): 107–113 – ID=419

13.

Križan  D., Komljenović M., Živanović B. (2005) The Influence of Different Parameters on the Hydration Process of Binders Based on Alkali Activated Slag. Journal of the Serbian Chemical Society 70(1): 97-105 – ID=418

14.

Živanović B., Srećković T., Komljenović M. (2002) The Influence of Mechanical Activation on the Process of Reaction Sintering of Portland Cement Clinker. Science of Sintering 34: 95-100 – ID=417

15.

Prokić S., Živanović B., Komljenović M. (1998) Properties of Sintered Tribochemically Activated Ceramic Powders. Ceramica Acta 10(4-5): 161-162 – ID=414

16.

Prokić S., Živanović B., Komljenović M., Maričić A., Milovanović T. (1998) Tribochemical Activation of Spray-Dried Ceramic Powder. Tile & Brick International 14(4): 252-257 – ID=415

17.

Komljenović M., Živanović B.M., Rosić A., Janjić O., Milovanović T., Petrašinović-Stojkanović Lj., Prokić S. (1998) b-Dicalcium Silicate Synthesis by Reaction Sintering. Science of Sintering 30 (Special Issue): 77-84 – ID=416

18.

Janjić O., Komljenović M., (1997) Materiali silico-calcici trattati in autoclave: sintesi di materiali per isolamento termico (Autoclaved Lime Quartz Materials: Synthesis of Thermal Insulating Materials). Ceramica Acta 9(5): 23-28 – ID=412

19.

Komljenović M., Živanović B., Srećković T., Poharc V., Radaković A. (1997) Comportamento termico di materiali a base di silicato di calcio idrato (Thermal Behaviour of Materials Based on Calcium Silicate Hydrate). Ceramurgia 27(2): 92-95 – ID=413

20.

Prokić S., Živanović B., Srećković T., Komljenović M., Andrić Lj. (1996) Sintering of Tribochemically Activated Natural Aluminium Silicates. Science of Sintering 28 (Special Issue): 81-90 – ID=411

21.

Živanović B.M., Stefanović M., Radaković A., Milovanović T., Ranogajec J., Komljenović M. (1995) Raw Mixture Optimization For Portland Cement Production. Il Cemento 92(2): 97-104 – ID=409

22.

Živanović B.M., Stefanović M., Radaković A., Milovanović T., Ranogajec J., Komljenović M. (1995) Substitution of Quartz Sand in Portland Cement Production. Zement Kalk Gips 48(1): 40-42 – ID=410

23.

Djurić M., Komljenović M., Petrašinović-Stojkanović Lj., Živanović B. (1994) Thermodynamic Analysis of the C-S-H System. Advances in Cement Research 6(21): 19-26 – ID=407

24.

Komljenović M.M., Radaković A., Živanović B.M., Milovanović T., Milošević S. (1994) An Investigation of Solid- and Liquid-State Reactions in CaO-SiO2 System. Science of Sintering 26(2): 185-193 – ID=408

25.

Janjić O., Milošević V., Komljenović M. (1992) Calcium hydrosilicate as a Base for Production of Thermal Insulating Materials. Materials & Structures 25: 154-158 – ID=406

 

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 Project Leader
E!5415 NEWCOMAT New generation of constructive materials based on industrial waste in the concept of sustainable development Ministry of Education, Science and Technological Development of the Republic of Serbia, EUREKA project Project Leader
COST Action TU 1301 NORM for Building Materials (NORM4BUILDING) COST (European Cooperation in Science and Technology) Management Committee Member