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Preface 4th ICAMEST The 4th ICAMEST 2020 is an International Conference on Advanced Material and Engineering Structural Technology (4th ICAMEST 2020) take place in Seoul, South Korea during September 11-13, 2020.
Preface 3rd ISMSE The 3rd 2020 International Symposium on Material Science and Engineering was held during August 21-23, 2020 in Seoul, South Korea and this book proceeding contains some of the contributions presented at the conference.
Also it to bring together academics, scientists, engineers, postgraduates and other professionals in the area of material science and engineering technology from all over the world.
Seungho Hong West Virginia University Department of Civil and Environmental Engineering Committees 3rd ISMSE Organizer Prof.
Seungho Hong West Virginia University Department of Civil and Environmental Engineering Secretary Hongki Son ISMSE Committee Associate Editors Prof.

Effect of tool rotation speed and feed rate on friction stir welding of 1100 aluminum alloy to carbon steel M.Habibnia 1, M.Shakeri 2 S.Nourouzi 3, N.Karimi 4 Department of Mechanical Engineering; Babol University of Technology, Babol, P.O.Box 484, Mazandaran, Iran 1M.Habibnia@stu.nit.ac.ir, 2 Shakeri@nit.ac.ir, 3S_ Nourouzi@nit.ac.ir, 4N.Karimi@stu.nit.ac.ir Keywords: Dissimilar joint, FSW, rotation speed, feed rate Abstract.
Steel alloys are inexpensive, high strength and toughness; it has been the first choice of material for engineers.
The carbon steel was in the advancing side.
Murti, “The formation of intermetallic phases in aluminum–austenitic stainless steel friction welds”, Journal of Material Forum, vol17 (1993), pp 301–307
Hotta, “Joining of steel to aluminum alloy by interface-activated adhesion welding”, Journal of Materials Science Forum,vol426–432 (2003), pp4129–4134

Kwon 1,e 1 School of Advanced Materials Engineering, Kookmin University, Seoul, 136-702, Korea 2 Department of Mechanical Engineering, Incheon City College, Incheon, 402-750, Korea a poisonx@hanmail.net, bwidenew@nate.com, c kblee@kookmin.ac.kr, dhryang@icc.ac.kr, e hkwon@kookmin.ac.kr Keywords: Ultrahigh Strength Steel, Co-Ni Steel, Secondary Hardening, Mechanical Properties, Severe Deformation Abstract.
Introduction The development of ultrahigh strength alloy steels combined with high toughness is an important subject in advanced materials research.
Acknowledgment This work was supported by the Korea Science and Engineering Foundation(KOSEF # R01- 2003-000-10341-0).
Forum, vol. 500-501 (2005), p 581
Forum, vol. 475-479 (2005), p.183.

The 2011 International Conference on Manufacturing Science and Engineering (ICMSE 2011) Sponsored by Guangxi University, China Guilin University of Electronic Technology, China University of Wollongong, Autralia Korea Maritime University, Korea Hong Kong Industrial Technology Research Centre (ITRC), Hong Kong Conference Organization Consultative Committee Academician Prof.
Zhihai Han, Xi'an Jiao Tong University, China  Preface The International Conference on Manufacturing Science and Engineering is the premier forum for the presentation of new advances and research results in the fields of Manufacturing Science and Engineering.
The 1st International Conference on Manufacturing Science and Engineering, ICMSE 2009, was successfully held from Dec. 26 -28, 2009 at Zhuhai, China.
The 2nd international conference on Manufacturing Science and Engineering, ICMSE 2011, is held in Guilin, China, between 9 and 11 April 2011.
The present volumes provide up-to-date, comprehensive and worldwide state-of-the art knowledge of the manufacturing science and engineering, including: manufacturing process technology, advanced engineering materials, new and advanced materials, advances in mechanical design and advanced manufacturing systems.

Three-Dimensional Modeling and Simulation of Dendrite Morphology of Cast Mg Alloys Huo Liang1, a, Han Zhiqiang1, b and Liu Baicheng1, 2, c 1 Key Laboratory for Advanced Materials Processing Technology, Ministry of Education 2 State Key Laboratory of Automotive Safety and Energy Tsinghua University, Beijing 100084, China a huol05@mails.tsinghua.edu.cn, b zqhan@tsinghua.edu.cn, c liubc@tsinghua.edu.cn Keywords: Magnesium alloy, dendrite morphology, cellular automaton method, modeling and simulation Abstract.
Forum Vols. 638-642 (2010), p. 1562 [4] M.
Forum Vols. 561-565 (2007), p. 1797 [7] D.
Stefanescu, in: Science and Engineering of Casting Solidification.

A model Ni-base alloy containing six alloying elements typical of advanced Ni-based superalloys was used.
Introduction Ni-base superalloys are important engineering materials used for the most demanding applications, e.g. as first stage gas turbine blades [1].
Six alloying elements typical of advanced Ni-based superalloys were used.
The uniaxial deformation with zero lateral pressure (tensile test) was applied along low-index directions [100] and [010].The total energy E of the crystal was calculated for eleven discrete values of engineering deformation e between –5% and +5%.
Forum Vol. 482 (2005), p. 147 [8] M.

In 2012 ,AM technology international forum and the sixth national AM technology conference was held in Wuhan, as Subo said in the meeting , for speeding up research and industrialization of AM in China, roadmap and industry long-term development strategy of AM technology  will be organized to study and formulate, which will promote specification and standard of AM to be perfect [3,4].
References [1] Li Dichen,Tian Xiaoyong,Wang Yong xin,Lu Bingheng:Developments of Additive Manufacturing Technology，Electromachining & Mould，supplement .1，2012，P20-P21 [2] Xu Yantao:3D Printing Technology- The New Thinking of Product Design, The new tide of global IT,No.9,2012,P5-P7 [3] Research Group of Advanced Manufacturing Field Strategy of Chinese Academy of Sciences, China in 2050 to Advanced Manufacturing Technology Development Roadmap, Science Press,2009 [4] Chinese Mechanical Engineering Society , In 2012 the Additive Manufacturing international forum and the sixth national Additive Manufacturing symposium, http://www.cmes.org/ file/c2i5t201318184231.html，2012 [5] Yang Kejian Liu Shuyan Chen Dingfang，Modeling in Virtual Reality，Joural of Wuhan University of Technology，Vol.23 No.6 Jun.2001 [6] Xue Yuanshun, Machine Tool Fixture Design,  China Machine Press,2010 [7] Qian Wen-xue,Hao Yong-ping,Wu Yu-bin，Rapid modeling technology of shell case based on Pro/Engineer，Journal of

This combination of properties and the particular structures of HEAs are attractive for a number of potential engineering applications.
Fu, Microstructure and compressive properties of AlCrFeCoNi high entropy alloy, Materials Science and Engineering A, 491, 2008, pp. 154–158
[2] Iulia Florea, Raluca Maria Florea,Oana Baltatescu, Vasile Soare, Costel Roman &Ioan Carcea, Research on electromagnetic properties of high entropy alloys, Advanced Materials Research Vol. 837, 2014, pp 277-282
Munitz, M.J.Kaufman, J.P.Chandler, H.Kalaantari, R.Abbaschian, Melt separation phenomena in CoNiCuAlCr high entropy alloy containing silver, Materials Science & Engineering A 560, 2013, pp.633–642
Carcea, High entropy alloys, Journal of Optoelectronics and Advanced Materials Vol. 15, No. 7- 8, 2013, pp.761 – 767.

Yu d Mechanical Engineering School of Tianjin University, Tianjin, China a linbinph@eyou.com, bzhuhongtao8516@sina.com, chanfeng1498@eyou.com, d yusiyuan@eyou.com Keywords: Advanced ceramics, Surface/Subsurface Crack Damage, Damage Prediction Abstract.
Ritter: Journal of Engineering for Industry, Vol.111 (1989), pp.167
Wu et al: Materials Science Forum, Vols.471-472 (2004), pp.47

Preface 2011 International Conference on Precision Engineering and Non-Traditional Machining (PENTM'2011) is the premier forum for the presentation of new advances and research results in the fields of Precision Engineering and Non-Traditional Machining.
National Conferences on Precision Engineering and Non-Traditional Machining have been held nine times from 1993 to 2009 in China.
The volume provides up-to-date, comprehensive and worldwide state-of-the art knowledge of the Precision Engineering and Non-Traditional Machining, including: precision mechanics design, precision & ultra-precision machining, precision test & control, non-traditional machining, manufacturing information engineering, MEMS/NEMS, optical instrument and technology and material science & technology.
The editors hope that the volume will not only provide the readers a broad overview of the latest advance but also provide the researchers a valuable summary and reference in this field.
Xinli Tian, Academy of Armored Force Engineering, China Prof.