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Doak2,b 1College of Engineering, Swansea University, Singleton Park, Swansea 2College of Medicine, Swansea University, Singleton Park, Swansea ao.j.guy@swansea.ac.ukemail, bs.h.doak@swansea.ac.uk Keywords: Graphene, epitaxial, SiC, biosensor Abstract.
Silicon Carbide (SiC), an advanced semiconductor material, has been discovered to be a suitable substrate for graphene growth [2, 6, 7, 8].
Acknowledgment This work was supported by the Engineering and Physical Science Research Council [grant number EP/I00193X/1] References [1] Sun, X., Liu, Z., Welsher, K., Robinson, J.
Forum 615, 223--226. [7] Guy, O.

Verkin Institute for Low Temperature Physics & Engineering NASU, Kharkov, Ukraine 3 Centre for Advanced Hybrid Materials, Materials Engineering Dept., Monash University, Australia a i.golovin@misis.ru (corresponding author), b palval@ilt.kharkov.ua, c yuri.estrin@monash.edu Keywords: ultrafine grained Cu, equal-channel angular pressing, damping, recovery, recrystallization Abstract.
Materials Science Forum, 667-669 (2011) 857-862 [4] V.D.

Introduction Over a number of decades, considerable effort has been made towards the development of lightweight engineering materials.
Experiments were carried out to study the effect of adding 0.5wt% of α-Al2O3 and γ-Al2O3 powder (Supplied by Inframat Advanced Material, 0.5 µm in size) on the morphology of Si in solidification of hypereutectic Al-18Si alloys at 800 ºC.
Acknowledgement The financial support from Engineering and Physical Sciences Research Council (EPSRC), UK is acknowledged with gratitude.
Forum, 765 (2013) 117-122

Effect of Pre-Existing Martensite on Bainitic Transformation in Low-Temperature Bainite Steel Peng Zhou1,2,a, Hui Guo3,b, Aimin Zhao3,c, Zhukai Yin1,d, Jiaxing Wang1,e 1Institute of Engineering Research, University of Science and Technology Beijing, Beijing, 10083, China 2National Engineering Research Center of Advanced Rolling Technology, University of Science and Technology Beijing, Beijing, 100083, China 3Collaborative Innovation Center of Steel Technology, University of Science and Technology Beijing, Beijing, 10083, China azhoupeng@nercar.ustb.edu.cn bguohuiyw@126.com, czhaoaimin@ustb.edu.cn, dyinzhukai@126.com, exiaoxingxing@outlook.com, Keywords: Low-temperature bainite, Pre-existing martensite, Phase transformation kinetics, Incubation period Abstract.
Forum 500 (2005) 495-502

A Brief Introduction to Alloy Phase Chemistry Determination under EPMA/SEM-EDS Conditions and its Applications Zhifang Peng1,a, Lisheng Cai1,b, Yingying Dang1,c, Lei Zhao1,d, Fangfang Peng2,e,Zhigang Yang1,f, Guangzong Yan1,g, Shengguang Chen1,h, Jun Zhou1,i and Yuangui Zhou1,j 1Department of Materials Engineering, College of Power and Mechanical Engineering, Wuhan University, Wuhan, China, 430072 2Materials Research Department, Dong Fang Boiler Group Corp.
Atomic Partitioning of Platinum and Ruthenium in Advanced Single Crystal Ni-based Superalloys.
Forum Vol. 546-549 (2007), p. 1187-1194

Preliminary Study of FSW Process of Dissimilar Aluminium Alloys in Battery Pack Assembly for Hybrid Vehicles Production Napolitano Francesco1,a*, Scherillo Fabio1,b, El Hassanin Andrea1,c, Esperto Vitantonio2,d, Carlone Pierpaolo2,e, Squillace Antonino1,f, Casarin Renzo3,g and Verde Carlo4,h 1University of Naples Federico II, Department of Chemical, Materials and Industrial Production Engineering, Piazzale V.
Tecchio, 80 – 80125 Naples – ITALY 2University of Salerno, Department of Industrial Engineering, Via Giovanni Paolo II, 132 – 84084 Fisciano – ITALY 3FPT Industrie S.p.A., Via Enrico Fermi, 18 – 300036 L.p.
If the AA6061 alloy is positioned on the advancing side the maximum temperature and the heat generation is higher than the configuration with A390 on the advancing side, this is due to the lower flow stress of AA6061 with respect to A 390 [11].
Forum Res.

Microstructural Evolution and Properties of Cu-1.5 wt %Ti Alloy during Aging Jianyi Chenga*, Kunzhe Heb, Mingqiang Dengc, Fangxin Yud School of Materials Science and Engineering, Nanchang University, Nanchang 330031, China a*bigchengjianyi@163.com, b1350105284@qq.com, c1069341325@qq.com, dyufangxin@ncu.edu.cn Keywords: Cu-Ti alloy, Spinodal decomposition, Ordering, Aging, Modulated structure Abstract.
The ordered fcc phase and β’-Cu4Ti phase makes a significant contribution to the strengthening of the alloy during the advanced stage of aging.
The strengthening of the alloy is dominated by the ordered fcc phase and β’-Cu4Ti phase during the advanced stage of aging.
Forum 654-656 (2010) 1319-1322

Sordelet Department of Materials Science and Engineering Iowa State University Ames, Iowa, USA, bgleeson@iastate.edu Keywords: Alumina scale, Ni-Al-Pt phase diagram, Pt effect, diffusion Abstract.
It will be shown that platinum has a profound effect on the oxidation and interdiffusion behaviors, to the extent that novel advanced coating systems can be developed.
Advanced cooling schemes coupled with thermal barrier coatings (TBCs) can enable the current families of nickel-base superalloys to meet the materials needs for the engines of tomorrow.
Commercial advanced TBC systems are typically two-layered, consisting of a ceramic topcoat and an underlying metallic bond coat.
Dayananda: Defect and Diffusion Forum, Vol. 83 (1992), p. 73

Laser-Powder Bed Fusion of Inconel 718 Alloy: Effect of the Contour Strategy on Surface Quality and Sub-Surface Density Andrea El Hassanin1,a*, Francesco Napolitano1,b, Carmela Trimarco1,c, Emanuele Manco1,d, Fabio Scherillo1,e, Domenico Borrelli2,f, Antonio Caraviello2,g, Antonino Squillace1,h and Antonello Astarita1,i 1Dept. of Chemical, Materials and Production Engineering, University of Naples “Federico II”, Piazzale Vincenzo Tecchio 80, 80125, Naples, Italy 2Sòphia High Tech, Via Romani 228, 80048, Naples, Italy a*andrea.elhassanin@unina.it, bfrancesco.napolitano4@unina.it, ccar.trimarco@studenti.unina.it, demanuele.manco@unina.it, efabio.scherillo@unina.it, fdomenico.borrelli@sophiahightech.com, gantonio.caraviello@sophiahightech.com, hsquillac@unina.it, iantonello.astarita@unina.it Keywords: Laser-Powder Bed Fusion, Inconel 718, surface roughness, density.
In this context, Laser-Powder Bed Fusion (L-PBF) is one of the leading metal AM technologies that allows the production of complex parts with high quality starting from metal powders, along with Electron Beam-Powder Bed Fusion (E-PBF) and Laser Engineered Net Shaping (LENS®) [2].
Uhmer, P.Carlone, Advanced robotics and additive manufacturing of composites: towards a new era in Industry 4.0, Mater.
Forum Res.

Selvaraj2,b 1Research Scholar, SSN College of Engineering, Chennai, India 2Associate Professor, SSN College of Engineering, Chennai, India akrameshkumar@nbkrist.org, bselvarajm@ssn.edu.in Keywords: Wind Turbine, Diffuser, Area Ratio, Dual rotor blade, Riblets, CFD Abstract.
[11] Muhammad Faiz Rozaim, Fazila Mohd Zawawi, Nur Safwati Mohd Nor, Haslinda Mohamed Kamar & Nazri Kamsah, Experimental study on performance of low speed wind turbine for application in Malaysia, Journal of Advanced Research in Fluid Mechanics and Thermal Sciences 26, Issue 1 (2016) 20-28
Series: Materials Science and Engineering 501 (2019) 012041
Farooq, Modeling and analysis of wind turbine blade with advanced materials by simulation.
International Journal of Applied Engineering Research, Volume 11, Number 6 (2016).