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Preface The 14th (Asia-Pacific Symposium on Engineering Plasticity and its Applications (AEPA 2018) was held at the “Seogwipo KAL Hotel” in Jeju island, Korea during December 2-7, 2018.
This conference series has been established as an international forum to assess the validity and the progress of state-of-the-art engineering plasticity and, to provide vision and strategy for further development in the area of plasticity.
The present conference was co-organized by KAIST, Deakin University, Korean Society for Technology of Plasticity and Two Korean ERC Centers (Innovative Technology in Advanced Forming, Innovative Process Design Center for Structural Materials).
The conference included scientists, engineers and software developers from academia, research institutions and industry worldwide, and provided a unique forum for stimulating discussions and exchanges of new ideas pertaining to experimental and numerical methods, material behavior, process modeling and forming technologies.
Yoon, Jeong Whan Han, Heung Nam Kang, Beom-Soo Kim, Young-Suk (Organising Chairs) Choi, Shihoon (Secretary General) Committees Organization Conference Chairmen Chairman · Yoon, Jeong Whan / KAIST, Korea & Deakin University, Australia Co-Chairmen · Kang, Beom-Soo / Pusan National University, Korea · Kim, Young-Suk / Gyeongbook National University, Korea · Han, Heung Nam / Seoul National University, Korea Secretary General · Choi, Shi Hoon / Sunchon National University, Korea Hosting Organizations · KAIST · Deakin University · The Korean Society for Technology of Plasticity · Innovative Technology in Advanced Forming (at Pusan National University) · Innovative Process Design Center for Structural Materials (at Seoul National University) Organizing Committee · Cho, Sang Soon/ KAERI · Han, Soo Sik / Kumoh National Institute of Technology · Hong, Seung Hyun/ Hyundai Motors Company · Hong, Seokmoo/ Kongju National University · Joun, Mansoo/ Gyeongsang

The publication would definitely bring extensive knowledge and present some advance material development in Thailand to the metallurgy society.
This conference was organised by Department of Metallurgical Engineering, Chulalongkorn University, together with National Metal and Materials Technology Center (MTEC) and Metallurgy and Materials Science Research Institute (MMRI), to celebrate the 40th anniversary of the Metallurgical Engineering department.
Although the tradition of the conference aims to establish a periodical forum for advance material development in Thailand, this year the forum has expanded into the international level to further strengthen the collaboration among the researches both in the academic society and the industrial sections.
It is our pleasure to thank the editorial board of the Journal of Key Engineering Materials for the readiness to publish this volume devoted to TMETC-8.
Peerapong Pinwanich National Metal and Materials Technology Center Jointly organisers: Department of Metallurgical Engineering, Faculty of Engineering, Chulalongkorn University Metallurgy and Materials Science Research Institute, Chulalongkorn University National Metal and Materials Technology Center Sponsors: Thai Parkerizing Company Limited Thai Tohken Thermo Company Limited POSCO-Thainox Public Company Limited Sahaviriya Steel Industries PLC EDAX Inc.

Study on Material Parameters Effects on Smoldering and Transition from Smoldering to Flaming Combustion Chang Lu a, Die Meng b, Minggao Yu c School of Safety Science and Engineering, Henan Polytechnic University, Jiaozuo,Henan, 454003, China a luch@hpu.edu.cn, b mengdie509@sina.com, c mgyu@hpu.edu.cn Key words: smoldering, flaming combustion, polyurethane foam, influential factor Abstract.
Acknowledgement This work is supported by the National Natural Science Foundation of China (50906023, 50974055), by Basic and Advanced Technology Research Program of Henan Province of China (092300410045), and by Graduate Foundation of Henan Polytechnic University.
Forum Vol.41(2006), p.427-443
Forum Vol.13 (2004), p.28-34
Forum Vol. 9 (2000), p51-56

Dimitrijev School of Microelectronic Engineering Griffith University, Nathan, Qld. 4111, Australia Keywords: gate oxide, nitridation, MOS capacitors, MOSFETs, interface defects, generation rate, surface generation, nonvolatile memory Abstract.
Both Si power MOSFETs and Si CMOS are advanced-level technologies form the point of view of their desired characteristics.
This is the main challenge that could be addressed by the emerging technologies such as the technology for 3C SiC from Hoya Advanced Semiconductor Technologies (HAST) [37].
Forum Vol. 433-436 (2003), p. 583
Pierret: Advanced Semiconductor Fundamentals, Modular Series on Solid State Devices, vol.

Introduction Powder metallurgy and particulate materials processing technology are indispensable means of researching, developing, producing high-tech advanced engineering materials, such as new metal materials, fine ceramics and composites of metal and ceramic matrix.
Forum Vol. 37–41 (2007), p. 2 [2]J.f.
Forum Vol. 40–44 (2005), p. 27 [5]K.y.
Forum Vol. 222–224 (2001), p. 19 [6]Q.s.
Forum Vol. 31 (2003), p. 50

ICOTOM 13, the first to be held in new millennium, will provide a forum for materials scientists and engineers, geologists, and mineralogists carrying out various texture-related projects and will provide an opportunity for scientific exchange between academia and industry.
ICOTOM 13 will deal with all themes related to texture phenomena in conventional and advanced materials, including ceramics, thin films, polymers, nanocrystalline materials, rocks, and composites.
Consequently the proceedings of ICOTOM 13, which are published as a special issue of Materials Science Forum, include 287 papers from 22 countries.

Li1,b 1 Key Lab for Advanced Metallic Materials Research and Processing Technology of Guangdong Province, South China University of Technology, Guangzhou 510640, China 2 Department of Chemical Engineering, Iwate University, Morioka 020-8551, Japan a zxkang@scut.edu.cn, bmehjli@scut.edu.cn, ckuni@iwate-u.ac.jp Keywords: Direct joining, Ethylene propylene rubber, Cast iron, Nanofilm, Polymer plating Abstract.
Correspondingly, a rigid metal of cast irons is largely used in engineering and daily life with considerable advantages, such as easily founding to complicated shapes, good wear resistance, high possibility of recycling and low cost.
The metallic material was ground Advances in Materials Manufacturing Science and Technology 872 plates of high ductile spheroidal-graphite cast iron with thin-section, whose dimension is 50 mm long, 30 mm wide and 4.5 mm thick.
Forum Vol. 419-422 (2003), p. 921 [2] H.
Forum Vol. 419-422 (2003), p. 889.

Dynamic-Mechanical Performance of Sponge Gourd Fiber Reinforced Polyester Composites Veronica Scarpini Candido1,a, Michel Picanço Oliveira2,b and Sergio Neves Monteiro1,c 1Military 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. 2State University of the Northern Rio de Janeiro, UENF, Advanced Materials Laboratory, LAMAV; Av.
Moreover, a growing number of engineering applications, from construction panels to automobile components, is specifying lignocellulosic composites [17-20].
Araújo ed., 2nd International Conference on Textile Engineering (SINTEX-2004) Proceedings, September 7–11, 2004, Natal, in CD-ROM, Paper TIP-1-007
Sain: Macromolecular Materials and Engineering Vol. 299 (2014), p. 9
Forum Vols. 775-776 (2014), p. 278

%Al(UHCS-1.6Al) Jun Wang1,Hai-sheng Shi2, Jing-guo Zhang 2 (1 School of Materials Science and Engineering, Tongji University, Shanghai 200092, China) (2 Advanced Technology Institute, Baosteel Research Institute, Shanghai 201900, Cnina) E_mail: wjun1993@yahoo.com.cn Keywords: High-strain-rate Superplasticity, Spray Forming ,Ultrahigh Carbon Steel Abstract: Spray forming UHCS-1.6Al material has a refined equiaxed pearlitic structure, which was necessary for high-train-rate superplasticity.
Materials Science and Engineering A202(1995),p.94 [8] Carsi.M, Penaba.F,.Ruano.O.A.
Y., Materials Science Forum, Vol.217-222(1996), p.317 [15] Song G.
L., Materials Science and Engineering, Vol.A179/A180(1994), p.249 [16] Shen J., Liu R.
S., In PRICM3(The Third Pacific Rim International Conference on Advanced Materials and Processing), 1998, p.1639 [18] Fu X.

Cultivation of Innovative Talents in Engineering Colleges Huaiyu Liu School of Hydraulic Science and Engineering, YangzhouUniversity, No.131JiangyangMiddleRoad, Yangzhou,225009,China liuhy@yzu.edu.cn Keywords: engineering colleges; innovative talents; training Abstract:Innovation is the soul of a nation's progress.Cultivating innovative talents is the important mission of many colleges,especially engineering colleges.
Third, cultivate innovative talents engineering colleges problems University is the cradle of innovation and personnel training, especially in engineering colleges.
Fourth, engineering colleges to strengthen innovative talents of several measures Innovative engineering colleges Training focuses on innovation, we need from the idea, system, method, environment and other aspects of innovation. 1,The concept of innovation.
Innovative Education in Engineering Colleges traditionally focused on basic engineering knowledge and understanding to grasp, and creative engineering practice, ignoring the Engineering Students develop human knowledge.
Education Forum, 2011 (29) :23-25