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Preface The 2013 International Conference on Materials, Mechanical and Manufacturing Engineering (IC3ME 2013) was successfully taken place in Guilin, China, October 19-20, 2013 and started as a conference initiative to be a forum mainly for the Asia-Pacific community working in materials, mechanical and manufacturing engineering field in order to facilitate aggregation and sharing interests and results for a better collaboration and activity visibility.
The topics of the Conference were: (1) Synthesis and Preparation of Materials; (2) Advanced Mechanical Engineering Science; (3) Advanced Manufacturing System and Artificial Intelligence.
The Organizing Committee of IC3ME 2013 2013 International Conference on Materials, Mechanical and Manufacturing Engineering (IC3ME 2013) Conference Organization Co-Chairmen Prof.

Development of a Nonlinear Forming Limit Curve of an Advanced High-Strength Steel (DP440) with Applicability to Multi-Step Forming Processes Theeramate Songthong1,a, Sansot Panich1,b, Komkamol Chongbunwatana1,c*, Saiyan Primee1,d 1Department of Production and Robotics Engineering, Faculty of Engineering, King Mongkut’s University of Technology North Bangkok, 1518 Pracharat 1 Rd., Wongsawang, Bangsue, Bangkok 10800, Thailand aS6401021810016@email.kmutnb.ac.th, bsansot.p@eng.kmutnb.ac.th, c*komkamol.c@eng.kmutnb.ac.th, dsaiyan.p@eng.kmutnb.ac.th Keywords: Nonlinear FLC, advanced high-strength steel, anisotropic yield criterion, hardening law Abstract.
Summary This research explores the creation of a nonlinear FLC to assess the formability of the 1.2-mm thick DP440 advanced high-strength steel sheet.
Horvath, Chapter 2 – Advanced steels for lightweight automotive structures, in: P.K.
Uthaisangsuk, Stress and strain based fracture forming limit curves for advanced high strength steel sheet, International Journal of Material Forming 11 (2018): 643-661
Panich, Influence of pre-stretching levels on the forming limit strain and stress curves of high strength steel sheet, Key Engineering Materials 798 (2019) 25-31.

Its origin is a preferred nucleation in the (hot) deformation substructure with significantly larger subgrain size, i.e. in an advanced state of recovery which enhances nucleation /10/.
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Hirsch, Materials Science and Engineering A 336 (2002) p. 249 [14] J.
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Materials Science Forum Vols. *** (2004) pp.736-740 online at http://scientific.net Ó 2004 Trans Tech Publications, Switzerland Approach to the Improvement of Laser Cutting Accuracy for Laminated Solid Manufacture by Dynamic Compensation G.
Liu 1,b 1 Mechanical Engineering School, Tianjin University 300072, China a tju_wanggang@eyou.com, b mennie@eyou.com Keywords: Laminated solid formation, Laser cutting, Dynamic compensation, Neural network Abstract.
The dynamic compensation module is composed of inverse dynamic model and Materials Science Forum Vols. *** 737 inverse velocity controller model.
The rules of updating the connecting weights are expressed as: )]1k(W)k(W[S)k(W)1k(W ij ij ij ij ij −−α+ηδ+=+ (4) where k: the kth learning process η: learning rate α : momentum term jδ :output error of node j q … … … … … … … … d1 d1 q & d1 q && di q di q && di q & d5 q d5 q & d5 q && d1 τ di τ d5 τ Materials Science Forum Vols. *** 739 This is a time-consuming supervised learning process.
deviation(minute) 0.5 200 150 1 1.5 50 100 100 150 200 deviation( mm) 50 0.5 0.75 0.25 Advances in Materials Manufacturing Science and Technology 740 References [1] G.

(SiC-BGSITs) Akio Takatsuka1, a, Yasunori Tanaka1, Koji Yano2, Norio Matsumoto1, Tsutomu Yatsuo1 and Kazuo Arai1 1National Institute of Advanced Industrial Science and Technology, Japan 2Interdisciplinary Graduate School of Medicine and Engineering, University of Yamanashi, Japan aa-takatsuka@aist.go.jp Keywords: SiC, normally-off, buried gate static induction transistor, high voltage.
Forum 600-603 (2009) 1071
Forum 679-680 (2011) 662
Forum 645-648 (2010) 913.

Materials Science Forum Vols. *** (2004) pp.63-66 online at http://scientific.net  2004 Trans Tech Publications, Switzerland Research on Ultra-precision Process of STAVAX ESR J.L.
Tao1,a 1 Mechanical & Electrical Engineering School, Zhejiang University of Technology, Hangzhou,310014, Zhejiang, P.R.
Rough lapping machine Rough lapping 2.Ultra-precision lapping machine (Nanopoli-100) Ultra-precision lapping 3.Conditioning ring polishing machine Polishing 4.Pethometer S2 Roughness 5.Flatness tester FT-100LD Flatness 6.Talystep Roughness profiles Table 3 Experimental materials Work STAVAX ESR, φ120[mm] Abrasives #1000Al203, #4000Al203, 7nm SiO2 powders Lap Cast iron Polisher Tin Materials Science Forum Vols. *** 65 Discussion Lapping.
Fig.3 Polishing: the surface for Ra=5nm(by CCD, Microscope 400×) Advances in Materials Manufacturing Science and Technology 66 0.1um 80um Fig.4 The roughness profiles of polished STAVAX ESR(S-136) (by Pethometer S2) Conclusions A dedicated kind of polishing technique is proposed to polish the STAVAX ESR.
Shen, et al: Advances in Abrasive Processes Vol. 235-238 (2001), p. 351 [2] T.

Le-Huu, et al.: Materials Science Forum, vol. 645-648 (2010), p. 1143-1146 [2] P.
Goldberg, et al., in: Properties of Advanced Semiconductor Materials, edited by Levinshtein, Rumyantsev, and Shur, Wiley (2001) [7] C.
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Materials Science Forum Vols. *** (2004) pp.542-546 online at http://scientific.net  2004 Trans Tech Publications, Switzerland Balancing of Tool/toolholder Assembly for High-speed Machining S.
Liu 1,d 1 School of Mechanical Engineering, Shandong University, Jinan 250061, P.R.
In real engineering applications, however, because of cost considerations and limitations of tool balance machine, perfect balance is attainable only by sheer luck.
in Materials Manufacturing Science and Technology 546 Conclusions High-speed machining is one of the most important advanced technologies.
Layne: Cutting Tool Engineering, Vol. 43(5) (1991).

Materials Science Forum Vols. *** (2004) pp.443-447 online at http://scientific.net  2004 Trans Tech Publications, Switzerland A Study on Warm Compacting Behaviors of 316L Stainless Steel Powder Z.Y.
Li1,e 1 College of Mechanical Engineering, South China University of Technology, Guangzhou，China a zhyxiao@scut.edu,cn, bmeiyuanke@21cn.com, cmewpchen@scut.edu.cn, dleongai@sina.com, e mehjli@scut.edu.cn Keywords: Stainless steel powders, Warm compaction, Die wall lubrication, Lubricant Abstract.
Advances in Materials Manufacturing Science and Technology 446 Die Wall Lubrication.
Acknowledgements This study was financially supported by the National Natural Science Foundation of China (No.50135020) and the National Advanced Materials Committee of China (No.2001AA337010).
Unked: Advance in Powder Metallurgy and Particulate Materials Vol. 1 (1995), p. 2 [5] D.Yarnton and T.J.

Preface The aim of 4th International Conference on Metallurgy Technology and Materials (ICMTM2016, 18-19th, June, 2016, Singapore) is to present the latest research and results of scientists (professors, students, PhD Students, engineers, and post-doc scientist) related to Metallurgy, Materials and Technology as well as to others Advanced Engineering Materials and Technology.
The conference aims to provide an excellent forum for research scientists and academia around the globe to present and discuss their latest research on a broad array of topics in current and future of Metallurgy Technology and Materials which drives most of our technological based economy today.
The main conference themes and tracks are of Metallurgy Technology, Advanced Materials and Technology and also other correlation of Materials Technique and Processing Advancement.
BOSI cooperate with IEEE (Institute of Electrical and Electronics Engineers), IEEE Harbin (Dalian) Section CIS Chapter and top university from in and out China by arranging and holding slap-up conferences on electrical engineering and automation, computer science, information technology, mechanic, materials, manufacturing engineering etc..
It creates and offers opportunities for experts, researchers and scholars from all over the world to present their technological advances and research results.