296

6.

N.Radović, Dj.Drobnjak, Development of Steels for fabrication of welded structures with

improved safety, Zavarivanje i zavarene konstrukcije, XLVI (2001) 81

7.

ASM HAndbook Vol1, Properties and Selection: Irons, Steels, and High-Performance Alloys,

Metals Park, Ohio (1998)

8.

Viswanathan, R.,

Application of Clean Steel/Superclean Steel Technlogy in the Electric Power

Industry – overview of EPRI Research and Products

, Clean Steel: Superclean Steel, The

Institute of Materials, London (1996) p.1

9.

ASM HAndbook Vol 15 Casting, Metals Park, Ohio (1998) p198

10. N.Radović, Dj.Drobnjak, Effect of interpass time and cooling rate on apparent activation energy

for hot working and critical recrystallization temperatures of Nb-microalloyed steel, ISIJ

International, 39 (1999) 576

11. Nenad A. Radović, Thermomechanical Treatment of Microalloyed Srteels, Monography (in

Serbian), AMES, Belgrade (2007)

12. N.Radović, Correlation Between Apparent Activation Energy for Hot Working and Temperature

of No Recrystallization in Microalloyed Steels, Materials Science Forum, 426-432 (2003) 1553-

1558

13. Dj.Drobnjak, N.Radović, M.Andjelić, A.Koprivica, Effect of Test Variables on Apparent

Activation Energy for Hot Working and Critical Recrystallization Temperatures of V-

microalloyed Steel, Steel Research, 68 (1997) 306

14. T.Gladman, Physical Metallurgy of Microalloyed Steels, IOM, London (1996)

15. Dj.Drobnjak, A.Koprivica, Fundamentals and Application of Microalloying Forging Steels, Ed.

Chester J.van Tyne, G.Krauss and D.Matlock, TMS, Warrendale, Pa (1996) 93-106

16. N.Radović, A.Koprivica, D.Glišić, A.Fadel, Dj.Drobnjak, Influence of V and N on

Transformation Behaviour and Mechanical Properties of Medium Carbon Forging Steels,

Materials Science Forum, in press

17. H.K.D.H. Bhadeshia, Bainite in Steel, the IOM Communications, London (2001)

18. Verlinden. B., et al., Thermo-Mechanical Processing of Metallic Materials, Pergamon Press,

2007

19. Kou.S., Welding Metallurgy, Second Edition, Wiley Inter-Science (2003)

20. K.Hulka,

Characteristic Feature of Titanium, Vanadium and Niobium as Microalloy Additions

to Steel,

Niobium GMBH, Duesseldorf, available at:

http://www.cbmm.com.br/portug/sources/techlib/info/charact/charact.htm

21. Wan-Yi Kim et al.,

Thermodynamics of Titanium, Nitrogen and TiN Formation in Liquid Iron

,

ISIJ International 47 (2007) 1082

22. K.Inoue et al.,

Solubility Product of TiN in Austenite

, ISIJ International 38 (1998) 991

23. T.Tanaka, Microalloying 95, Ed. M.Korchynsky, The Iron and Steel Society, Warrendale, Pa

(1995) 165-181

24. A.Radović, N.Radović,

A Contribution of Fracture Mechanics to Materials Design

, From

Fracture Mechanics to Structural Integrity Assesment” – IFMASS-8 Eds. S.Sedmak and

Z.Radakovic, DIVK-TMF, Beograd (2004) 61

25. R.Smallman, M., Bishop, R.J., Modern Physical Metallurgy and Materials Engineering

Science, process, applications Sixth Edition, Butterworth-Heineman, (1999)

26. G

. Simić, V. Lučanin, J. Tanasković, N. Radović,

Experimental Research Of Characteristics

Of Shock Absorbers Of Impact Energy Of Passenger Coaches,

Experimental Techniques, 33

(2009) July/August 29-35

27. R.Ćirić, K.Raić, N.Radović, V.Grabulov, Z.Odanović,

Analysis of Carbides and Carbide Phases

Distriibution in Friction Welded Joints

, Welding in the World, 49 (2005) 157-170

28. M.Vratnica, Z.Cvijovic, N.Radovic,

The Effect of Compositional variations on the Fracture

Toughness of 7000 Al-alloys

, Materijali in Tehnologije, 42 (2008) 191-196