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Xia 1, b 1 Department of Mechanical and Manufacturing Engineering, University of Melbourne, Victoria 3010, Australia a xiaolinw@unimelb.edu.au, b k.xia@unimelb.edu.au Keywords: Equal channel angular; consolidation; powder; particles; nanostructured; aluminium.
As-received particles As examples, an atomised pure Al powder of micrometres in size (referred to as the micro Al particles) supplied by ECKA Granules Australia and an evaporation-condensed pure Al powder of nanometres in size (the nano Al particles) supplied by Inframat Advanced Materials were used.
Caruso in the Department of Chemical and Biomolecular Engineering at the University of Melbourne, and to Dr.
Forum Vol. 503-504 (2006), p. 233

Investigation on Annealed CNTs to the Electrical and Optical Properties of Nanocomposited MEH-PPV: CNTs Thin Film PUTERI Sarah Mohamad Saad 1,a, MOHD Hazrin Zainal1, Fazlinashatul Suhaidah Zahid1, Zurita Zulkifli1, Suriani Abu Bakar2, Mohamad Rusop Mahmood1,2,b 1NANO-ElecTronic Centre, Faculty of Electrical Engineering, 2NANO-SciTech Centre, Universiti Teknologi MARA, 40450 Shah Alam, Selangor aputeri_ajip@yahoo.com, brusop@salam.uitm.edu.my Keywords: Nanocomposite, MEH-PPV, Annealed CNTs Abstract.
Also special thanks to staffs of NANO-ElecTronic Centre (NET), Faculty of Electrical Engineering, Universiti Teknologi MARA.
Motta: Materials Forum, Vol. 32 (2008)
Yang: Advanced Functional Material Vol. 11 (2001)

Microstructure and Properties of Ultrafast Annealed High Strength Steel PETROV Roumen1,2, a, HAJYAKBARI Farideh 2,3,b, SAZ Fernando Ramos1,c, SIDOR Jurij1,d, SANTOFIMIA Maria Jesus 2,3e, SIETSMA Jilt 2,1,f and KESTENS Leo1,2g 1Gent University, Dept. of Materials Science and Engineering, Technologiepark 903, Gent, Belgium 2Delft University of Technology, Department of Materials Science and Engineering, Mekelweg 2 2628 CD Delft, the Netherlands 3 Materials innovation institute (M2i), Mekelweg 2 2628 CD Delft, the Netherlands a roumen.petrov@ugent.be , b f.hajyakbary@tudelft.nl, c Fernando.RamosSaz@UGent.be djurij.sidor@ugent.be , eM.J.SantofimiaNavarro@tudelft.nl , f j.sietsma@tudelft.nl gleo.kestens@ugent.be Keywords: Ultrafast heating, Grain refinement, High strength, Recrystallization, Phase transformation, Texture Abstract.
Introduction The classical approach for the development of advanced high-strength steel (AHSS) grades is two-fold (i) the use of special combinations of alloying elements and (ii) control of cooling rates, which determine microstructure formation.
Kestens; Materials Science Forum Vols. 702-703 (2012) pp 798-801

Valera1,d 1Department of Metallurgical and Materials Engineering Polytechnic School - University of São Paulo Av.
The semi-quantitative chemical composition of the residual fraction obtained in the LOI analysis was determined by relative XRF analysis on a PANalytical Axios Advanced X-ray fluorescence spectrometer.
Valera: Materials Science Forum Vols. 798-799 (2014), p. 628
Froelich: Engineering Vol. 76 (2015), p. 28

Rotational Moulding and Mechanical Characterisation of Micron-Sized and Nano-Sized Reinforced High Density Polyethylene Günther Höfler1,a*, Krishnan Jayaraman1,b and Richard Lin1,c 1Centre for Advanced Composite Materials, Department of Mechanical Engineering, The University of Auckland, Private Bag 92019, Auckland Mail Centre, Auckland, 1142, New Zealand aghoe113@aucklanduni.ac.nz, bk.jayaraman@auckland.ac.nz, crj.lin@auckland.ac.nz Keywords: Rotational moulding, high density polyethylene, glass fibres, carbon nanotubes, nanoparticle-reinforced composite, mechanical properties.
For the production of composites, the charging materials were typically prepared by dry blending with a high-speed mixer (Laboratory High-Speed Mixer Type LMX5-S-VSFI by Labtech Engineering Co.
Materials Science Forum. 437–438:235–8. (2003) [6] F.G.

Correlation Between the Density and the Diameter of Fique Fibers Pedro Amoy Netto1,a, Giulio Rodrigues Altoé1,b, Frederico Muylaert Margem1,c, Fabio de Oliveira Braga2,d, Sergio Neves Monteiro2,e and Jean Igor Margem1,f 1State University of the Northern Rio de Janeiro, UENF, Advanced Materials Laboratory, LAMAV; Av.
Alberto Lamego, 2000, 28013-602, Campos dos Goytacazes, RJ, Brazil. 2Military Institute of Engineering - IME, Department of Materials Science; Praça General Tibúrcio, 80, Praia Vermelha, Urca, RJ, CEP 22290-270, Urca, Rio de Janeiro, RJ, Brazil.
In this century, the most promising engineering application of lignocellulosic fibers is the reinforcement for polymer composites.
Oliveira: Mater Sci Forum Vols. 775-776 (2014), p. 266

Because mechanical properties of material strongly depend on pores and grain sizes, produce a high density and fine grains ceramics is one of the desired goals of the engineers in ceramic processing.
Sutton, Microwave processing of Ceramic Materials, Microwave Solutions for Ceramic Engineers, Am.
Aripin, Effect of Microwave Radiation on the Properties of Sintered Oxide Ceramics, Contemporary Engineering Sciences, Vol. 8 No. 34, (2015), 1607-1615
Kuwayama, Grain Growth in Millimeter Waves Sintered Alumina, Advanced Material Research, 789, (2013), pp. 279-282
Sabchevski, Microstructural and Thermal Properties of Nanocrystalline Silica Xerogel Powders converted from Sago Waste Ash Material, Material Science Forum ,737 (2013), 110-118 [11] H.

Screen-Printing of NiO-ScSZ on YSZ Substrate Using Solid-State Reaction and Glycine-Nitrate Process Precursors for Solid Oxide Electrochemical Cells Christine Mae Macalisanga* and Rinlee Butch Cerverab Energy Storage and Conversion Materials Research Laboratory, Department of Mining, Metallurgical and Materials Engineering, College of Engineering, University of the Philippines Diliman, Philippines, 1101 acjmacalisang@up.edu.ph, brmcervera@up.edu.ph Keywords: solid oxide electrochemical cells, NiO-ScSZ thin film, screen-printing, particle size Abstract.
Acknowledgments This study was financially supported by the Philippine-California Advanced Research Institute – Commission on Higher Education (CHED-PCARI) for IID 2018-009: Sustainable and Renewable Fuel and Electrolysis Cell Energy Device Technology (SureTech) Project and in part by the Department of Science and Technology Philippine Council for Industry, Energy, and Emerging Technology Research and Development (DOST-PCIEERD) E-Minerals Project 2 (Recovery of Lithium, and other valuable metals from local spent Li-ion batteries: waste battery mining, repurposing, and regeneration).
Cervera, Screen-Printed NiO-YSZ Thin Film Electrode for Solid Oxide Electrochemical Cell and Subsequent Reduction to Ni-YSZ, Materials Science Forum Vol 950 (2019), p. 123-127

Influence of electron-phonon coupling coefficient on Properties in Femtosecond Laser Ablation Ran Xiang1, 2, a, Xinyu Tan2, b* and Huili Wei3, c 1Department of Physics, China Three Gorges University, Yichang 443002, China 2Hubei Provinvial Collaborative Innovation Center for New Energy Microgrid, China Three Gorges University, Yichang 443002, China 3School of Physics and Electronic information Engineering, Hubei Engineering University, Xiaogang,432000, China a343045287@qq.com , b*husttanxin@163.com , c weihuili888@126.com Keywords: Femtosecond laser ablation, Two-temperature model, Electron-phonon coupling.
Introduction The special natures of the interaction of femtosecond laser and metal, non-metallic materials make the advanced micro/nano fabrication technology possible and the fine processing technology a big step forward.
Materials Science Forum. 689(2011) 11-15.

Rainforthe 1IMMPETUS (Institute for Microstructural and Mechanical Process Engineering: The University of Sheffield), Mappin Street, Sheffield S1 3JD, UK.
Also in this case, a slightly higher fraction of recrystallised grains can be found what suggest the more advanced progress in the static recrystallisation kinetics compared to the specimen, where the strain was reversed.
Acknowledgements The authors gratefully acknowledge the financial support provided by the Engineering and Physical Sciences Research Council, UK, under grant EP/F023464/1 and the supply of the experimental materials by Corus Group plc.
Forum Vols. 638-642 (2010), p. 3418 [4] J.L.