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Mapping of Threading Screw Dislocations in 4H n-type SiC wafers Alexandre Ellison1,a*, Erik Sörman1,b , Björn Sundqvist1,c , Björn Magnusson1,d , Yu Yang2,e, Jianqiu Guo2,f , Ouloide Goue2,g , Blaji Raghothamachar2,h , and Michael Dudley2,i 1 Norstel AB, Box 734, 60116 Norrköping, Sweden 2 Department of Materials Science and Engineering, State University of New York at Stony Brook, Stony Brook, NY 11794-2275, USA aalex.ellison@norstel.com, berik.sorman@norstel.com, cbjorn.sundqvist@norstel.com, dbjorn.magnusson@norstel.com, eyu.yang@stonybrook.edu, fjqguo123@gmail.com, gouloide.goue@stonybrook.edu, hbalaji.raghothamachar@stonybrook.edu, imichael.dudley@stonybrook.edu Keywords: Threading Screw Dislocation, Dislocation Density, X-ray topography, KOH.
Acknowledgments The topograph experiments were carried out at Advanced Photon Source (Beamline 1-BM), a U.S.
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They combine properties from their components and follow the new trends of engineering applications, namely b polymer composites filled with metals [1, 2].
Virtual Modelling and Rapid Manufacturing - Advanced Research in Virtual and Rapid Prototyping, Taylor and Francis, London, 2005, p. 421
Arefinia, Analysis of the sedimentation process in reactive polymeric suspensions, Chemical Engineering Science 61 (2006) 7565-7578
Pouzada, Mechanical Properties of Epoxy Composites Filled with Short Steel Fibres for Hybrid Injection Moulds, Advanced Materials Forum IV 587-588 (2008) 222-226
Banthia, Curing study of epoxy resin by new aromatic amine functional curing agents along with mechanical and thermal evaluation, Materials Science and Engineering: A 464 (2007) 38-46.

Acknowledgements The Department of Science and Technology (DST) in South Africa is acknowledged for funding under the Advanced Metals Initiative Program.
Materials Science Forum 690 (2011) 53-56
Advanced Engineering Materials 12 (2010) 559-571
Materials Science and Engineering A 316 (2001) 11-17
Materials Science Forum 765 (2013) 23-27.

Materials Science Forum Vols. *** (2004) pp.183-186 online at http://scientific.net  2004 Trans Tech Publications, Switzerland Modern Analysis and Design for the Generalized Lubrication System of Internal Combustion Engine M.
Ge 1,d 1 College of Mechanical Engineering, Shandong University, Jinan, P.R.China, 250061 2 Dept. of Mechanical Engineering, University of Alberta, Edmonton, Canada, T6G 2G8 a liumjn@sdu.edu.cn, bchengfqi@163.com, cxianfeng@ualberta.ca, dpqge@sdu.edu.cn Keywords: Lubrication system, Integrated design, Internal combustion engine Abstract.
These issues will be considered in the Advances in Materials Manufacturing Science and Technology 184 design of generalized lubrication system totally.
These technical measures have Advances in Materials Manufacturing Science and Technology 186 great significance for keeping the engine work well and can be used to verify the analysis and design of generalized lubrication system.
Wang: Internal Combustion Engine Engineering Vol. 3 (2000), p. 64 [7] Y.

Drying of Sisal Fiber: Three-Dimensional Mathematical Modeling and Simulation JAQUELINE Félix de Brito Diniz1,a, GICÉLIA Moreira2,b, JOSÉ Jefferson da Silva Nascimento3,c, RODOLFO Pereira de Farias4,d, HORTÊNCIA Luma Fernandes Magalhães2,e, GUSTAVO Henrique de Almeida Barbalho5,f and ANTONIO Gilson Barbosa de Lima6,g 1Department of Mathematics, Federal University of Campina Grande, Campina Grande, Paraíba, Brazil, Zip Code 58429-900 2Department of Chemical Engineering, Federal University of Campina Grande, Campina Grande, Paraíba, Brazil, Zip Code 58429-500 3Department of Materials Engineering, Federal University of Campina Grande, Campina Grande, Paraíba, Brazil, Zip Code 58429-900 4Federal University of Paraíba, João Pessoa, Paraíba, Brazil, Zip Code 58051-900 5Federal Institute of Education, Science and Technology of Rio Grande do Norte, Zip Code 59190-000, Canguaretama,
Rio Grande do Norte, Brazil 6Department of Mechanical Engineering, Federal University of Campina Grande, Campina Grande, Paraíba, Brazil, Zip Code 58429-900 ajacqueline@mat.ufcg.edu.br*, bgicelia.moreira@eq.ufcg.edu.br, cjefferson.nascimento@ufcg.edu.br, drp.eng.tec@gmail.com, ehortencia.luma@gmail.com, fgustavo.barbalho@ifrn.edu.br, gantonio.gilson@ufcg.edu.br Keywords: Drying, sisal fiber, experimental, simulation, finite-volume.
Series: Advanced Structured Materials. 63ed.
Forum, 391 (2019) 36-41
Forum, 380 (2017) 66-71.

The International Journal of Advanced Manufacturing Technology 93.1-4 (2017): 881-900
The International Journal of Advanced Manufacturing Technology 76.5-8 (2015): 869-879
Engineering Fracture Mechanics 120 (2014): 15-25
Biomedical Engineering (2016), 50(3): 202-205.
IOP Conference Series: Materials Science and Engineering, 2017, Vol. 192.

Introduction Diamond sawblades are commonly used in civil engineering industry for the cutting of concrete material replacing the conventional demolishing and rebuilding approaches.
In order to find out the characteristics of concrete sawing and improve the application and manufacturing of diamond saw blade for civil engineering, in this paper the cutting forces of different concrete especially reinforced concrete in dry cutting process were investigated.
Materials Science Forum Vols. *** 297 References [1] P.Bienert: Kreissaegen von Beton mit Diamant-Werkzeugen (Ph.D Dissertation, TU Hanover, 1978) (in German) [2] M.W.Bailey and G.J.Bullen: Sawing in the stone and civil engineering industries (IDR, 1979), p. 56 (in German) [3] Y.N.
Wei: Tool Engineering Vol. 35 (2001), p. 10 (in Chinese) [4] Y.N.
Wei: Tool Engineering Vol. 35 (2001), p. 21 (in Chinese) [5] B.Denkena, H.K.Tönshoff and J.C.Becker, et al: IDR, 2003,11, p.124 (in German) [6] X.Wei, H.W.Du, C.Y.Wang, et al: Key Engineering Materials Vol. 250, (2003), p. 181.

The conference series provide a forum for academic and industrial researchers, scientists, and engineers to meet to discuss recent developments in aluminum science, technology, and applications.
The ICAA conferences cover all aspects of aluminium alloy technology, and in ICAA15 particular emphasis is placed on nine topics, including  Casting and solidification;  Phase transformations;  Thermo-mechanical processing;  Metal plasticity and forming;  Strength, fracture and fatigue;  Advanced atomic-scale characterization;  Corrosion and surface properties;  Novel processes and alloy design;  Modelling and simulation.

Protective Ability of Graphite Powder on Molten AZ91D Magnesium Alloy Weihong Li1, a, Jixue Zhou1, b,*, Baichang Ma2, c, Jianhua Wu1, d, Jinwei Wang2, e, Haihua Zhuang2, f, Yuansheng Yang3, g, Xiaohui Huang4,h,* 1Shandong Key Laboratory for High Strength Lightweight Metallic Materials, Advanced Materials Institute, Shandong Academy of Sciences, Jinan 250014, Shandong, China; 2Shandong Engineering Research Center for Lightweight Automobiles Magnesium Alloys, Advanced Materials Institute, Shandong Academy of Sciences, Jinan 250014, Shandong, China; 3Institute of Metal Research, Chinese Academy of Sciences, Shenyang 110016, Liaoning, China 4Department of Material Science and Engineering, Shandong University, Jinan 250061, Shandong, China aliweihong@sdas.org, b,*zhoujx@sdas.org, cmabch@sdas.org, djianhw@sdas.org, ewjinw@sdas.org, f525485594@qq.com, gysyang@imr.ac.cn, h,*hxh@sdu.edu.cn Keywords: AZ91D magnesium alloy, Graphite powder, Surface film, Protection mechanism.
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Advanced materials used in aerospace studies are of great importance for defense related applications and new materials development regarding its dual use approach.
Acknowledgements The authors thank the ITA, the Project Pro-Defense CAPES Nº 014/08 and the Institute of Advanced Studies (IEAv/DCTA).
Bhadeshia: Materials Science Forum.
Liu, B.A Bai: Materials Science and Engineering A Vol. 559 (2013), p.165
Lima: Advanced Materials Research Vols. 891-892 (2014), p. 1507