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Dept. of Mechanical Engineering, University of Waterloo, 200 University Ave.
Lloyd, Advances in Industrial Materials, D.S.
(Institute of Materials Engineering Austalasia Ltd, Australia 2004) p. 107
Court, Materials Science and Engineering A316 (2001)11
Materials Science and Engineering A319- 321 (2001) 452

Lekatou3,d, Peter Hornak4,e, Marek Vojtko5,f and Vasily Efremenko2,5,g* 1Pryazovskyi State Technical University, Department of Biomedical Engineering, Mariupol, 87555, Ukraine 2Pryazovskyi State Technical University, Department of Physics, Mariupol, 87555, Ukraine 3University of Ioannina, Department of Materials Science and Engineering, 45110 Ioannina, Greece 4Faculty of Materials, Metallurgy and Recycling, Technical University of Kosice, 04200 Košice, Slovakia 5Slovak Academy of Sciences, Institute of Materials Research, 040 01 Košice, Slovakia aefremenko_b_v@pstu.edu, bzurnadzhy_v_i@pstu.edu, cjulia.chabak25@gmail.com, dalekatou@uoi.gr, epeter.hornak@tuke.sk, fmvojtko@saske.sk, g*vgefremenko@gmail.com Keywords: Co-28Cr-6Mo alloy; selective laser melting; microstructure; nanoindentation; sliding wear.
(Eds.), Advances in Metallic Biomaterials, Springer Series in Biomaterials Science and Engineering 3, Springer-Verlag, Berlin – Heidelberg, 2015, pp. 157-178
Forum 654-656 (2010) 2184-2187
Forum 405 (2020) 133-138
Journal of Achievements in Materials and Manufacturing Engineering, 87 (1) (2018) 25-31

Microstructures and Creep Behaviour of Mg-4Al Alloy Containing Sr and Ca Jing Bai1, a, Yangshan Sun1, b, Feng Xue1, c 1 Jiangsu Key Laboratory for Advanced Metallic Materials, Southeast University, Jiangning, Nanjing, 211189, Jiangsu, China a baijing@seu.edu.cn, b yssun@seu.edu.cn c xuefeng@seu.edu.cn Keywords: Magnesium alloy; microstructures; creep behaviour; strontium; calcium Abstract: Microstructures and creep property of the Mg-4Al based alloy with addition of 2% Sr and 1%Ca were investigated.
Introduction Magnesium alloys, as the lightest engineering structural metal with low density of 1.8kg/cm3 (about 1/3 lower than that of Al and 4/5 lower than that of Fe ), high specific strength and stiffness, are impressively attended by international industrial circle for energy and environment problems mainly caused by automobile industry[1].
References [1] M.O.Pekguleryuz: Materials Science Forum Vol. 350 (2000), p. 131 [2] A.Luo and M.O.Pekguleryuz: Journal of Materials Science Vol. 29 (1994), p. 5259 [3] A.A.Luo: International Materials Reviews Vol. 49 (2004), p. 13 [4] M.O.Pekguleryuz and E.Baril: Materials Transactions Vol. 42 (2001), p. 1258 [5] E.Baril, P.Labelle and M.O.Pekguleryuz: JOM Vol. 55 (2003), p. 34 [6] M.A.Parvez, M.Medraj, E.Essadiqi, A.Muntasar and G.Denes: Journal of Alloys and Compounds Vol. 402 (2005), p. 170 [7] M.O.Pekguleryuz and A.A.Kaya: Advanced Engineering Materials Vol. 5 (2003), p. 866 [8] B.Q.Han and T.G.Langdon: Materials Science and Engineering A Vol. 322 (2002), p. 73 [9] W.Blum, Y.J.Li, X.H.Zeng, P.Zhang, B.Von Grossmann and C.Haberling: Metallurgical and Materials Transactions A Vol. 36 (2005), p. 1721 [10] W.Blum, B.Watzinger and P.Zhang: Advanced Engineering Materials Vol. 2 (2000), p. 349 [11] T.G.Langdon: Metallurgical and Materials Transactions A Vol. 33 (2002), p. 249 [
12] S.W.Chung, H.Watanabe, W.J.Kim and K.Higashi: Materials Transactions Vol. 45 (2004), p. 1266 [13] M.Regev, E.Aghion and A.Rosen: Materials Science and Engineering A Vol. 234-23 (1997), p. 123 [14] I.P.Moreno, T.K.Nandy, J.W.Jones, J.E.Allison and T.M.Pollock: Scripta Materialia Vol. 48 (2003), p. 1029 [15] B.L.Mordike, I.Stulikova and B.Smola: Metallurgical and Materials Transactions A Vol. 36 (2005), p. 1729

Ferrier, Push-out and bending tests of steel-concrete adhesively bonded composite elements, Engineering Structures. 231 (2021) 111717
Materials Science Forum. 938 (2018) 46–53
Krishan, Composite materials: Science and engineering, Springer Science & Business Media, New York, 2013
Jasiūnienė, Advanced ultrasonic NDT for weak bond detection in composite-adhesive bonded structures, International Journal of Adhesion and Adhesives. 102 (2020) 102675
Budinski Engineering materials: Properties and selection, Prentice Hall, Hoboken, New Jersey, USA, 2010.

Iman, The Effect of Ni-Al2O3 nanocomposite coatings on the wear and corrosion resistance and thermal diffusivity of 316 stainless steel plates of heat exchangers, Journal of Materials Engineering and Performance, 32-4 (2023) 1529-1544
Kumar, The State of the art for wire arc additive manufacturing process of titanium alloys for aerospace applications, Journal of Materials Engineering and Performance, 31 (2022) 6149-6182
Chen, Effect of hydrogen precharging on mechanical and electrochemical properties of pure titanium, Advanced Engineering Materials, 22 (2020) e1901182
Poletti, Microstructure refinement of a cast high entropy alloy by thermomechanical treatments, Materials Science and Engineering A, 872 (2023) 144931
Zhang, General relationship between strength and hardness, Materials Science & Engineering.

Modified Jiles-Atherton Model The phenomenological description advanced in the eighties of the last century has gained a considerable attention in the scientific and engineering community.
The corresponding values are obtained from the transformed constitutive relationship Extended Takács Model Takács has advanced an interesting description of hysteresis loops and related magnetization curves using a hyperbolic tangent transformation between the loop coordinates [7].
It should be remarked that this optimization routine is very attractive from the engineering point of view, as it yields optimal solutions in a reasonable time and it does not require many user settings.
In order to draw some meaningful conclusions about the obtained results, the final relationship erived for the modified JA the parameter b responsible for reversible magnetization effects has been set to zero, as the corresponding model advanced by Takács does not consider the reversibility.
Forum 727–728 (2012) 130–134

Model Predictions for New Iron Ore Sintering Process Technology Based on Biomass and Gaseous Fuels Jose Adilson de Castro1,2 a 1 Federal Fluminense University - Graduate Program on Mechanical Engineering- Volta Redonda, RJ, Brazil, 27255-125 Tel: +55 24-2107-3756 2 Environmental Metallurgy Laboratory (IML) Graduate Institute of Ferrous Technology (GIFT)-Pohang University of Science and Technology, San 31 Hyojay-Dong, Nam-Gu, Pohang, 790-784, South Korea ajosedilsoncastro@id.uff.br Keywords: Sintering process, Multiphase modeling, Gaseous fuels, Biomass Abstract.
A base case representing a possible actual industrial operation of the sintering machine is used in order to compare different scenarios of practicable operations which represents advanced operations techniques.
Sasaki: Advanced Mat.
Forum Vol. 727(2012), p. 26 [15] M.

Friction and Wear Properties of Friction Stir Welds of 5052 Al alloy Xunhong Wang1,a , Kuaishe Wang1,2,b 1 Department of Metallurgy Engineering, Xi'an University of Architecture and Technology, Xi'an,Shaanxi 710055,P.R.
Many kind of aluminum alloy have been found suitable for a number of engineering and tribological applications where in they performed better than bronzes such as Zinc-based alloys, there has been a growing interest in the use of such alloys as sliding bearing materials[4].
The TMAZ microstructure consists of bent elongated grains near the nugget shown in the micrograph Fig.3d, and is divided into the retreating side (RS) and the advancing side (AS) depending on different microstructures [5].
Kovacevic: Journal of Materials Engineering and Performance Vol.11(2002), p.51 [3] A.Munitz, C Colter, A Stern, G Kohn: Mater.
Forum Vol. 419-422 (2003), p.365 [6] J.A.

Advances in technology superabrasive large single crystal SiC cutting.
Tool Engineering magazine. 2014（44）：7-10 [2] Wang Guilin.
Diamond & Abrasives Engineering. 2009,176（6）：20-23
Materials Science Forum , 2004 , 471-472 : 26-31
[7] Xiu-Fang Chen,Xian-Gang Xu.Anisotropy of chemical mechanical polishing in silicon carbide substrates[J].Material Science and Engineering B142（2007）28-30 [8] O.Eryu,K.Abe,N.Takemoto.Nanostructure formation of SiC using ion implantation and CMP[j].Nuclear Insteument and Methods in Physics Research B-242(2006)237 - 239 [9] Li Shugui，Li Chenggui，Liu Yi，Yang Hui.

The influence of modelling material zones on strains and stresses at weld toe notch Karol Niklas1, a, Janusz Kozak2, b 1, 2 Gdansk University of Technology, The Faculty of Ocean Engineering and Ship Technology, Narutowicza 11/12 St., Gdansk, Poland akarnikla@pg.gda.pl, bkozak@pg.gda.pl Keywords: laser welds, fatigue, material model, FEM, FEA Abstract.
Introduction Advances in welding technology enabled prefabrication of thinwalled structures in industrial scale.
[2] Niklas K., Calculations of notch stress factor of a thin-walled spreader bracket fillet weld with the use of a local stress approach, Engineering Failure Analysis, vol. 45, pp 326–338, Elsevier Ltd., 2014, DOI: 10.1016/j.engfailanal.2014.06.017
[3] Niklas K., Kozak J., Influence of the Notch Rounding Radius on Estimating the Elastic Notch Stress Concentration Factor in a Laser Welded Tee Joint, Materials Science Forum Vol. 726 (2012) pp. 100-105, Trans Tech Publications, Switzerland, doi: 10.4028/www.scientific.net/MSF.726.100