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Preface The Japanese-Mediterranean Workshop on Applied Electromagnetic Engineering for Magnetic, Superconducting and Nanomaterials (JAPMED), constituting a landmark in the development of materials, manufacturing and electrical engineering, is held every two years, jointly organized by the National Technical University of Athens (Laboratory of Manufacturing Technology and Laboratory of Electrical Machines) and the Japan Society of Applied Electromagnetics and Mechanics.
It provided a forum for specialists from universities, research centers and industry of various countries worldwide to establish cooperation, to share knowledge and experience and the cross-fertilization of new ideas and developments in the design, analysis, new materials utilization and optimisation techniques in the areas of applied electromagnetics and manufacturing of advanced materials from macro-, micro- to nanoscale and their industrial applications in modern technologies in nanotechnology, electricity/electronics, transportation, bioengineering, energy and environment.
Furthermore, modern advanced research areas, like nanotechnology/nanomaterials, ultraprecision engineering and bioengineering, are also included in order to enhance cooperation towards these advanced technologies, which may greatly affect our lives in the future.

As a partner for hot-forming, ThyssenKrupp Steel Europe sets a 3-pillar development strategy from material, process and advanced component design for this demand.
HFS Hot Forming Solutions is a joint venture company between ThyssenKrupp System Engineering and Braun CarTec, who can offer leading production solutions for hot-stamping. 4.
The advanced door concept with hot-stamping in InCar® project offers 11% weight reduction and improved crash performance at no additional cost (shown in Fig. 7).
Fig. 7 Advanced door concept and design in InCar® project 5.
Manfred Nagel, Lightweight Design & Innovative Steels, GWM Materials Science Forum, Baoding China, 2013

Leaded by social and technological problems in the modern stage of e-learning systems the authors propose a low cost prototype based on an advanced collaboration architecture that provides the lecturers and learners with educational services in different domains such as engineering, or sciences.
Section III is dedicated to the advanced approaches to be implemented for special forms of education.
The collaborative learning cloud has been quickly adopted for engineering, especially electrical engineering, applied electronics, telecommunications and computer science.
Manseur, A Synchronous Distance Learning Program Implementation in Engineering and Mathematics, Proceedings of the 39th ASEE/IEEE Frontiers in Education Conference, San Antonio, Texas, (2009) 1-6
Chen, A Problem-based Learning Approach to Teaching an Advanced Software Engineering Course, Proceedings of the 2nd International Workshop on Education Technology and Computer Science, (2011) 252-255

Application of Advanced Characterization Techniques to SmartSiC™ Product for Substrate-Level Device Performance Optimization A.
Forum Vol.1062, pp 131-135 (2022) [2] W.
Gelineau et al., Materials Science Forum. 1089. 71-79.
Guiot et al., Materials Science Forum. 1092. 201-207.
Igarashi et al., Defect and Diffusion Forum. 425. 75-82.

To solve the macroscopic decision-making problems by using scientific thinking ways, knowledge system and advanced techniques, have really reflected the main function of the science and technology as the first productivity to promote human society development.
The worldwide new technology revolutions have constantly inspired the discussions on human, society and nature. 2013 International Forum on Materials Science and Industrial Technology (IFMSIT 2013) provides a platform for various scientists, engineers, academicians and teachers to display their research achievements.
This forum provides opportunities for the delegates to exchange new ideas and application experiences face to face, to establish business or research relations and to find global partners for future collaboration.
Jagadeesh Kannan, RMK Engineering College, India Prof.
Shendian Wang, Institute of Engineering Thermophysics, Chinese Academy of Sciences, China Prof.

Materials Science Forum Vols. *** (2004) pp.278-281 online at http://scientific.net  2004 Trans Tech Publications, Switzerland The Application of Numerical Control Based on Network Manufacturing in Plastic Window Production X.B.
Wang 1,d 1 School of Mechanical Engineering, Jinan University, 250022,Jinan, China 2 School of Mechatronic Engineering, Wuhan University of Technology, 430070,Wuhan, China a zexb@sina.com, bdinghang1112@sohu.com, cjrj@luneng.com, dwxqla@163.com Keywords: Plastic windows, Profile material cutting, Network manufacturing, Numerical control Abstract.
In order to increase enterprise's manufacturing level and market competition, plastic window manufacturers began looking for new advanced manufacturing technologies.
Bar code printer prints a marker that can definitely reflect the information of engineer and process in time, which is pasted on the cover of the profile material after it is cut off.
Materials Science Forum Vols. *** 281 Conclusions The NC technique under network manufacturing conditions is successfully applied in plastic window machining process.

The premixed water jet shot peening which is a new shot peening technology was proposed in 2004 by Dong Xing, compared with the conventional shot peening process, it has many advantages such as advanced technology, strong adaptability, good strengthening effect，efficiency, energy saving, safety and environmental protection etc [4-7], and it has broad application prospects.
This shows that the predicted results is relatively ideal, it can meet the actual demand of prediction accuracy with shot peening's surface roughness in the engineering.
[3] Wang R Z: The Development of Shot Peening's Technology in Our Country, Materials Engineering (1989), p.4-7
[4] Dong X, Duan X: Surface technology, Forum Vol.34 (2005), p.48-49
[6] ZENG Y.S., LI N.Y. and GUO H.P.: Plastic Engineering Journal, Forum Vol. 15(2008), p.97-103

Preface The international conference Advanced Materials and Structures - AMS 2015 is the sixth edition; first one in 1998, of a scientific event organized by the Department of Materials and Manufacturing Engineering from the Politehnica University Timişoara, with the support of the POLITEHNICA Foundation.
The conference has the aim to cover by its topics the broad domain of advanced materials, with all important aspects: technology of fabrication, property characterization, advanced applications, investigation and mathematical modelling.
The sessions of the conference are also meant to be a forum of scientific debate and discussion.
Mircea Nicoară, Head of Department for Materials and Manufacturing Engineering Lecturer Ion Dragoş Uţu, Secretary of AMS'15 Assoc.
Aurel Răduţă, Department for Materials and Manufacturing Engineering Assoc.

Forum Vol.6-18( 2002),p. 42-45, (In China)
Forum Vol.19-12( 2007),p. 26-30, (In China)
[4] Liu Lina, Han Xiuli, Li Changcun, Yang Huiping: Advanced Matericals Research.
Forum Vol.2-30( 2011),p. 10-12, (In China)
Forum Vol.20-6( 2004),p. 3-6, (In China).

Materials Science Forum Vols. *** (2004) pp.234-237 online at http://scientific.net Ó 2004 Trans Tech Publications, Switzerland Study on Multi-dimension Integration Technology of CAPP/PDM Z.L.
Feng2,b 1 Mechanical Engineering School, Shandong University, Jinan 250061, P.R.China 2 Department of Computer Science & Technology, Shandong Economic University, Jinan 250014, P.R.China a jzljeff@163.com, bshihong@mail.sdu.edu.cn Keywords: PDM, CAPP, Integration, Knowledge Abstract.
Introduction Due to the interpromotion among computer technology, network technology and advanced manufacture technology, manufacturing industry steps into globalization, netization [1], collaborationization[2] and knowledgization.
Hu et al: China Mechanical Engineering Vol. 11 (2000), p. 45 [2] P.Y.
Cheng: Chinese Journal of Mechanical Engineering Vol. 38(2002), p. 34 [3] D.Y.