BhadeshiaH. K. D. H.: ‘Adventures in the physical metallurgy of steels’, Mater. Sci. Technol., 2014, 30, 995–997.
2.
BhadeshiaH. K. D. H.: ‘Anomalies in carbon concentration determinations from nanostructured bainite’, Mater. Sci. Technol., 2015, 31, 758–763.
3.
CaballeroF. G., Garcia-MateoC. and MillerM. K.: ‘Modern steels at atomic and nanometre scales’, Mater. Sci. Technol., 2015, 31, 764–772.
4.
GarbarzB. and Niżnik-HarańczykB.: ‘Modification of microstructure to increase impact toughness of nanostructured bainite–austenite steel’, Mater. Sci. Technol., 2015, 31, 773–780.
5.
GrajcarA., KwaśnyW. and ZaleckiW.: ‘Microstructure–property relationships in TRIP-aided medium-C bainitic steel with lamellar retained austenite’, Mater. Sci. Technol., 2015, 31, 781–794.
6.
KrawczykJ., PacynaJ. and BałaP.: ‘Fracture toughness of steels with nickel content in respect of carbide morphology’, Mater. Sci. Technol., 2015, 31, 795–801.
7.
TaylorM., MatlockD. K., SunX., ChoiK. S., De MoorE. and SpeerJ. G.: ‘Applications of nanoindentation hardness measurements to assessments of microstructural constituent and bulk mechanical properties of selected advanced high strength steels’, Proc. Int. Conf. MS2014, Warsaw, Poland, July 2014, oral presentation.
8.
KučerováL., JirkováH. and MašekB.: ‘The effect of alloying on mechanical properties of advanced high strength steels’, Arch. Metall. Mater., 2014, 59, 1190–1192.
9.
JabłońskaM. B.: ‘Mechanical properties and fractographic analysis of high manganese steels after dynamic deformation tests’, Arch. Metall. Mater., 2014, 59, 1193–1197.
10.
GrajcarA., SkrzypczykP. and WoźniakD.: ‘Thermomechanically rolled medium-Mn steels containing retained austenite’, Arch. Metall. Mater., 2014, 59, 1691–1696.
11.
PacynaJ.: ‘Interpretation of cooling dilatograms in range of bainitic and martensitic transformations’, Arch. Metall. Mater., 2014, 59, 1679–1683.
12.
KokoszaA. and PacynaJ.: ‘Influence of austenitising temperature on kinetics of phase transformations in medium carbon TRIP steel’, Mater. Sci. Technol., 2015, 31, 802–807.
13.
da SilvaE. P., De KnijfD., XuW., FöjerC., HoubaertY., SietsmaJ. and PetrovR.: ‘Isothermal transformations in advanced high strength steels below martensite start temperature’, Mater. Sci. Technol., 2015, 31, 808–816.
14.
KołodziejS. and OzgowiczW.: ‘Microstructure and texture evolution of cold-rolled Fe–24.5Mn–3.5Si–1.5Al steel after thermomechanical treatment’, Proc. Int. Conf. MS2014, Warsaw, Poland, July 2014, oral presentation..
15.
GrajcarA., KilarskiA., RadwańskiK. and SwadźbaR.: ‘Microstructural features of strain-induced martensitic transformation in medium-Mn steels with metastable retained austenite’, Arch. Metall. Mater., 2014, 59, 1673–1678.
16.
WoźniakT., RanachowskiZ., RanachowskiP., OzgowiczW. and TrafarskiA.: ‘The application of neural networks for studying phase transformation by the method of acoustic emission in bearing steel’, Arch. Metall. Mater., 2014, 59, 1705–1712.
17.
RożniataE. and DziurkaR.: ‘The phase transformations in the hypoeutectoid steels Mn–Cr–Ni’, Arch. Metall. Mater., 2015, 60, (1), 497–502.
18.
De KnijfD., Da SilvaE. P., FöjerC. and PetrovR.: ‘Study of heat treatment parameters and kinetics of quenching and partitioning cycles’, Mater. Sci. Technol., 2015, 31, 817–828.
19.
JirkováH., KučerováL., AišmanD. and MašekB.: ‘Optimisation of the Q–P process parameters for low alloyed steels with 0.2C’, Arch. Metall. Mater., 2014, 59, 1205–1210.
20.
RadowskiP. and ŚwiątnickiW. A.: ‘Characteristics of the mechanical properties of nanocrystalline low alloy steel after the new short-term heat treatment’. Proc. Int. Conf. MS2014, Warsaw, Poland, July 2014, poster presentation..
21.
WasiakK., SkołekE. and ŚwiątnickiW. A.: ‘Microstructure and mechanical properties of 35CrSiMn5–5–4 steel after quenching & partitioning process’. Proc. Int. Conf. MS2014, Warsaw, Poland, July 2014, oral presentation..
22.
GołaszewskiA., SzawłowskiJ. and ŚwiątnickiW. A.: ‘Multiphase steel microstructure and properties optimisation through a new heat treatment process’. Proc. Int. Conf. MS2014, Warsaw, Poland, July 2014, oral presentation; submitted to Materials Science and Technology..
23.
BeladiH., TimokhinaI. B., XiongX. Y. and HodgsonP. D.: ‘The formation of a fine ferrite and low temperature bainitic composite microstructure’. Proc. Int. Conf. MS2014, Warsaw, Poland, July 2014, oral presentation..
24.
QinR.: ‘Nanostructured pearlitic steel’. Proc. Int. Conf. MS2014, Warsaw, Poland, July 2014, oral presentation..
25.
HauserováD., DlouhyJ. and NovyZ.: ‘Effect of heating rate on accelerated carbide spheroidisation (ASR) in 100CrMnSi6–4 bearing steel’, Arch. Metall. Mater., 2014, 59, 1199–1203.
26.
MyszkaD., WasilukK., SkołekE. and ŚwiątnickiW. A.: ‘Nanoausferritic matrix of ductile iron’, Mater. Sci. Technol., 2015, 31, 829–834.
27.
MyszkaD., SkołekE. and WieczorekA.: ‘Manufacture of toothed elements in nanoausferritic ductile iron’, Arch. Metall. Mater., 2014, 59, 1218–1221.
28.
SkołekE., DudzińskaK., KamińskiJ. and ŚwiątnickiW. A.: ‘Corrosion resistance of the bearing steel 67SiMnCr6–6–4 with nanobainitic structure’, Arch. Metall. Mater., 2015, 60, (1), 503–509.
29.
SkołekE., MarciniakSz., SkoczylasP., KamińskiJ. and ŚwiątnickiW. A.: ‘Nanocrystalline steels’ resistance to hydrogen embrittlement’, Arch. Metall. Mater., 2015, 60, (1), 491–496.
30.
Garcia MateoC.: ‘Nanobain. Industrialization of a nanostructured steel’. Proc. Int. Conf. MS2014, Warsaw, Poland, July 2014, oral presentation..
31.
BurianW., MarciszJ., GarbarzB. and StarczewskiL.: ‘Nanostructured bainite–austenite steel for armours construction’, Arch. Metall. Mater., 2014, 59, 1212–1216.
32.
LisieckiA.: ‘Welding of thermomechanically rolled fine-grain steel by different types of lasers’, Arch. Metall. Mater., 2014, 59, 1625–1631.
33.
JanickiD.: ‘Disk laser welding of armor steel’, Arch. Metall. Mater., 2014, 59, 1641–1646.
34.
GrajcarA., RóżańskiM., KamińskaM. and GrzegorczykB.: ‘Study on non-metallic inclusions in laser-welded TRIP-aided Nb-microalloyed steel’, Arch. Metall. Mater., 2014, 59, 1164–1169.
35.
SongK. J., FangK., YangJ. G., MaR., LiuX. S., WangJ. J. and FangH. Y.: ‘Acceleration of regeneration treatment for nanostructured bainitic steel welding by static recrystallisation’, Mater. Sci. Technol., 2015, 31, 835–842.
36.
ŚwiątnickiW. A.: ‘Production of nanocrystalline steels by use of heat treatment processes’. Proc. Int. Conf. MS2014, Warsaw, Poland, July 2014, introductory lecture.
37.
DworeckaJ., JezierskaE., RożniatowskiK. and ŚwiątnickiW. A.: ‘Characterization of nanobainitic structure obtained in 100CrMnSi6–4 steel after industrial heat treatment’, Arch. Metall. Mater., 2014, 59, 1637–1640.
38.
JezierskaE., DworeckaJ. and RożniatowskiK.: ‘Nanobainitic structure recognition and characterization using transmission electron microscopy’, Arch. Metall. Mater., 2014, 59, 1633–1636.
39.
MarciniakSz., SkołekE. and ŚwiątnickiW. A.: ‘The effect of step austempering on phase composition and mechanical properties of X37CrMoV5–1 steel’, Arch. Metall. Mater., 2015, 60, (1), 517–521.
40.
WasilukK., SkołekE. and ŚwiątnickiW. A.: ‘Microstructure and properties of surface layer of carburized 38CrAlMo6–10 steel subjected to nanostructurization by a heat treatment process’, Arch. Metall. Mater., 2014, 59, 1685–1690.
41.
WasiakK., DworeckaJ., MarciniakSz., JezierskaE., SkołekE., RożniatowskiK. and ŚwiątnickiW. A.: ‘Thermal treatment distortion of nanobainitic steels’, Proc. Int. Conf. MS2014, Warsaw, Poland, July 2014, oral presentation.
42.
SkołekE., MarciniakSz. and ŚwiątnickiW. A.: ‘Thermal stability of nanocrystalline structure in X37CrMoV5–l steel’, Arch. Metall. Mater., 2015, 60, (1), 511–516.
