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Formation of Heterostructure with Appearance of a-Al Phase in Hyper-and Eutectic Al-Si Alloys by Solidification at High Rate Hong Hai Nguyen1,a*, Quoc Tuan Nguyen2,b, Minh Duc Le3,c 1School of Materials Science and Engineering, Hanoi University of Science and Technology, Hanoi, Vietnam 2Faculty of Mechanical Engineering, Hanoi University of Industry, Hanoi, Vietnam 3Department of Materials Science and Engineering, Le Quy Don University, Hanoi, Vietnam a*hai.nguyenhong@hust.edu.vn, btuannq@haui.edu.vn, cminhduclek52@gmail.com Keywords: aluminum alloy, hetero-structure, primary a-Al, primary silicon, eutectics Abstract.
Dwivedi: Materials Science and Engineering A, Vol. 408, 2005, Issues 1-2, p. 274-280, https://doi.org/10.1016/j.msea.2005.08.013 [2] M.
Okumiya, Semisolid Casting of Hypereutectic Al-Si-Cu Alloy with Sono-solidified Slurry, Key Engineering Materials, Vols 622-623, Switzerland, 2014, pp 804-810. doi: 10.4028/www.scientific.net/ KEM.622-623.804 [11] S.
Lenik, Change of Aluninum Alloys Structure by Sono-Solidification, Archives of Foundry Engineering, Vol 13, 4/2013, pp 39-42. doi: 10.2478/afe-2013-0078 [12] Junwen Zhao, Shusen Wu, Ping An, and Youwu Mao: Materials Science Forum, Vols. 141-143, 2008, p. 767-771, doi: 10.4028/www.scientific.net/SSP.141-143.767 [13] K.
Microstructural Evolution of A380 Aluminum Alloy Produced by Gas Induced Semi-Solid Technique (GISS), Advances in Materials and Processing Technologies, Vol. 1, 2015, Issue. 1-2, p. 155-163.

Horizontal axis wind microturbines with power of 10 kW, Envinronmental Engineering and Management Journal. 10 (2011) 1041-1045
Bere, Mechanical characteristics of composite materials obtained by different technologies, Academic Journal of Manufacturing Engineering. 4 (2011) 100-105
Berce, Design and analysis of carbon/epoxy composite tubular parts, Book Series: Advanced Engineering Forum, Vol: 8-9, (2013), pp. 207-214
Molenaar, Wind turbine structural dynamics – A review of the principles for modern power generation, onshore and offshore, Wind Engineering. 26, No. 4 (2002) 211-220.

Materials science and engineering: A. 125 (1990) 249-265
Research progress of advanced magnesium rare-earth alloys.
Materials for Mechanical Engineering. 34 (2010) 10-12
Journal of Jilin University (Engineering and Technology Edition). 39 (2009) 159-163
Materials for Mechanical Engineering. 35 (2011) 47-50

Addition of Swarf to Produce a Semi-Solid Slurry during High Pressure Die-Casting of AS9U3 Aluminum Alloy Hooman Hadian1,a*, Mohsen Haddad Sabzevar1,b and Mohammad Mazinani1,c 1Department of Materials and Metallurgical Engineering, Faculty of Engineering, Ferdowsi University of Mashhad, Mashhad, Iran aho.hadian@stu.um.ac.ir, bhaddadm@um.ac.ir, cmazinani@um.ac.ir Keywords: slurry, swarf, AS9U3 alloy, solid fraction, dendrite, globular Abstract.
AS9U3 Aluminum alloy is one of the most widely used high-pressure die cast alloys with some specific engineering application such as engine parts, radiators and gas regulators.
Proceedings of the 7th S2P Advanced Semi-solid Processing of Alloys and Composites, edTsutsui, Kiuchi, Ichikawa, Tsukuba, Japan. 2002, pp. 665-70
Materials Science Forum; 2002: Trans Tech Publ.
Jönköping University, School of Engineering; 2016

Material Science Forum (2011) 113-120 [2] G.
Barbezat, Advanced thermal spray technology and coating for lightweight engine blocks for the automotive industry.
Richert, The wear resistance of thermal spray the tungsten and chromium carbides coatings, Journal of Achievements in Materials and Manufacturing Engineering. 47 (2011) 177-183
Kuczek, Effect of plasma gases on the structure and properties of WC-CrC-Ni coatings, Key Engineering Materials 641 (2015) 105-110 [11] J.
Pałka, The Cr3C2 thermal spray coating on Al-Si substrate, Journal of Achievements in Materials and Manufacturing Engineering. 38 (2010) 95-102 [16] P.

Modelling and Simulation of Maritime UAV-VTOL Robot Flight control Zhao Dong Liang1,a and Amir Anvar1,b 1 The University of Adelaide, School of Mechanical Engineering SA 5005 AUSTRALIA Emails: adong.zhao@student.adelaide.edu.au, b amir.anvar@adelaide.edu.au Keywords: UAV, Command, Control, Navigation, Avionics, Maritime, Air, Robot, Five-rotor, Micro-sonobuoy Abstract.
IMU is used by the CPU to maintain aircraft stability, as well as any advanced aerial maneuvers.
Utah: Department of Electrical and Computer Engineering Brigham Young University
Nobbs, A, (2010), “Design, Build and Implementation of a VTOL Maritime UAV”, Publication of The School of Mechanical Engineering, The University of Adelaide, Australia
[8] Hu, G., Northeast, J., & Parsonage, E., (2010), “Design, Manufacture and Implementation of a command, control and autonomous navigation system for a VTOL UAV”, Publication of The School of Mechanical Engineering, The University of Adelaide, Australia.

Previously, coal ashes have been used to prepare advanced materials such as glass-ceramics with the hardness of 6.35 GPa, geopolymer concrete with compressive strength of over 30 MPa and zeolite A with a Cr (III) removal capacity of 35.8 mg/g.
Moreover, the use of fly ash for building materials and other advanced materials will allow for sustainable utilization of this resource.
[15] Z.Zhao, F.Xiao, S.Amirkhanian, Recent applications of waste solid materials in pavement engineering, Waste Manage. 108 (2020) 78–105
[17] O.Tsogbadrakh, Ts.Zolzaya, P.Myagmarsereejid, J.Temuujin, Characterization of a Gher district ash from Ulaanbaatar city and its possible application as an adsorbent, IFOST Proceedings, 2018 13th International Forum on Strategic Technology (IFOST) p.50

The Simulation Research of The Effect of Distributed Generation On Voltage of Distribution Network LIU Guan-qi, SHAO Long, HU Ting Department of Electrical Engineering, North China Electric Power University, Baoding, China E-mail: shaolong211@126.com Keywords：Distributed Generation; Distribution network; Voltage distribution; Simulation analysis Abstract.
Advances of Power System & Hydroelectric Engineering. 2008. 24(2): 2-3
Application of MATLAB/SIMULINK in Power System Engineering Simulation[D].
International Forum on Strategic Technology. 2011,6: 1.

Norikazu Ooka 1,2, Makoto Ebata 2,3 1 Senior Technical Advisor, The Japan Welding Engineering Society 2 Working Group member for Promotion of Laboratory Accreditation, The Japan Welding Engineering Society(JWES) 3 General Manager, Advanced Material Dept., Mitsui Engineering & Shipbuilding Co., Ltd.
However, it is also a fact that the scheme has such various subjects as improvement of clearness and impartiality, transition to an internationally acceptable accreditation scheme, expansion of applicable fields in addition to architectural steel structures, all-out adoption of quality system, and morals. [1][2] In response to such subjects, the Working Group for Promotion of Laboratory Accreditation of The Japan Welding Engineering Society has worked for establishing a new accreditation scheme for nondestructive testing organizations.
Abbreviations: IAF: International Accreditation Forum PAC: Pacific Accreditation Cooperation ILAC: International Laboratory Accreditation Cooperation MRA: Mutual Recognition Arrangement APLAC: Asia-Pacific Laboratory Accreditation Cooperation MS: Management System Figure 1.
Various schemes for conformity assessment Title of Publication (to be inserted by the publisher) The new laboratory accreditation scheme for nondestructive testing organizations (referred to as the Laboratory Accreditation Scheme) is to be co-managed by The Japan Accreditation Board for Conformity Assessment (referred to as JAB) which is a laboratory accreditation body in Japan and The Japan Welding Engineering Society (referred to as JWES) which is delegated by JAB for assessment of laboratories.
The Japan Accreditation Board for Conformity Assessment (JAB) The Japan Welding Engineering Society (JWES) Figure 3.

Hamdi4d 1Department of Materials Engineering and Design, Faculty of Mechanical and Manufacturing Engineering, Universiti Tun Hussein Onn Malaysia, 86400 Batu Pahat, Johor 2,4Centre of Advanced Manufacturing & Material Processing (AMMP), Department of Mechanical Engineering, Faculty of Engineering, University of Malaya, 50603 Kuala Lumpur, Malaysia 3Department of Manufacturing and Materials Engineering, Faculty of Engineering, International Islamic University Malaysia aadzila@uthm.edu.my, bramesh79@um.edu.my, csopyan@iium.edu.my, dhamdi@um.edu.my Keywords: Magnesium, Mechanochemical, Hydroxyapatite, X-ray Diffraction, Fourier Transform Infrared.
Forum. 694 (2011) 118-122