Objavljeni radovi:
[1]
Aleksić V., Milović Lj., Blačić I., Vuherer T., Bulatović S.: Effect of LCF on behavior and microstructure of microalloyed HSLA steel and its simulated CGHAZ, Engineering Failure Analysis, 104, (2019) 1094-1106, ISSN 1350-6307, IF(2018) = 2,203,
[2]
Aleksic V., Dojčinović M., Milovic Lj., Samardžić I.: Cavitation damages morphology of high-strength low-alloy steel, Journal for Theory and Practice in Metallurgy-Metalurgija, 55(3), (2016) 423-425, ISSN 0543-5846, IF (2014)=0,959.
[3]
Bulatović S., Burzić Z., Aleksić V., Sedmak A., Milović Lj., Impact of choice of stabilized hysteresis loop on the end result of investigation of high-strength low-alloy steel on low cycle fatigue, Journal for Theory and Practice in Metallurgy-Metalurgija, 53(4), (2014) 477-480, ISSN 0543-5846, IF (2014) = 0,959.
[4]
Aleksić V., Milović Lj., Aleksić B., Bulatović S., Burzić Z., Hemer M. A.: Behaviour of Nionikral-70 in low-cycle fatigue, Structural integrity and life, 17(1), (2017) 61-73, 2017, ISSN 1451-3749.
[5]
Milovic Lj., Bulatovic S., Aleksic V., Radakovic Z., Markovic S., Sedmak S., Assessment of the behaviour of fatigue loaded HSLA steel welded joint by applying fracture mechanics parameters, Structural integrity and life, 12(3), (2012) 175-179, ISSN 1451-3749
[6]
Milovic Lj., Bulatovic S., Aleksic V., Burzic Z., Low cycle fatigue of weldments produced of a high strength low alloyed steel, 20th European Conference on Fracture (ECF 20) 2014, Trondheim, Norway, Procedia Materials Science, pp. 1429-1434.
[7]
Aleksic V., Milovic Lj. Bulatovic S., NDT and RBI in function of pressure equipment integrity loss, 11th International Conference on accomplishments in Electrical and Mechanical Engineering and Information Technology 2013, Banja Luka, pp.1153-1158
[8]
Aleksic V., Bulatovic S., Milovic Lj., NDT in function prevention of loss integrity of structures large dimensions, 5thJubilee Balkanmine congress & comercial exhibition 2013, Ohrid, Macedonia, pp. 112-118
[9]
Milovic Lj., Bulatovic S., Aleksic V., Radakovic Z., Markovic S., Sedmak S., Assessment of the behaviour of fatigue loaded HSLA steel welded joint by applying fracture mechanics parameters, New trends in fatigue and fracture (NT2F) 2012 Brasov, Romania, pp. 101-109
[10]
Aleksić V., Aleksić B., Milović Lj.: Methodology for determining the region of stabiliyation of low-cycle fatigue, Book of Abstracts, 16th International Conference on New Trends in Fatigue and Fracture (NT2F16), May 24-27, 2016, Dubrovnik, Croatia, pp. 189 – 190.
[11]
Aleksić V., Milović Lj., Aleksić B., Abubkr M. Hemer: Indicators of HSLA steel behavior under low cycle fatigue loading, 21st European Conference on Fracture, ECF21, 20-24 June 2016, Catania, Italy, Procedia Structural Integrity 2 (2016), pp. 3313–3321.
[12]
Aleksić B., Aleksić V., Abubkr M. Hemer, Milović Lj., Grbović A.: Determination of the region of stabilization on low-cycle fatigue HSLA steel from test data, Proceedings of the 17th International Conference on New, Trends in Fatigue and Fracture (NT2F17), October 25-27th, 2017, Cancun, Mexico, pp. 101-112.
[13]
Aleksić B., Aleksić V., Milović Lj., Hemer M. A.(bubkr), Prodanović A.: Determination of Polynomial Depending Between Hardness and Cooling Time Δt8/5 of Steel Nionicral 70 Heat affected Zone, Proceedings of the 18th International Conference on New, Trends in Fatigue and Fracture (NT2F18), July 17-20, 2018, Lisbon, Portugal, pp. 87-90.
[14]
Aleksić V., Aleksić B., Milović Lj.: Metodologija određivanja pokazatelja ponašanja HSLA čelika pri delovanju niskocikličnog zamora, V Međunarodni kongres „Inženjerstvo, ekologija i materijali u procesnoj industriji”, Jahorina, Bosna i Hercegovina, 15.03.-17.03. 2017, CD, str. 1123-1135.
