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To achieve this, a hierarchical type of modelling is proposed in order to maintain the balance between calculation speed (required for engineering applications) and accuracy.
In that case, FE models to be used at the engineering length scale work with an analytical constitutive model, the parameters of which are identified using results of multilevel models (meso-scale with an homogenisation procedure).
Fig. 2 shows the FLC predicted by the Marciniak model using either the von Mises, or the texture-based yield locus, each combined with a standard Holloman hardening model, or with the advanced hardening model Alflow [13].
Van Houtte: Materials Science Forum Vol.495-497 (2005) p. 1573
Van Houtte: Materials Science Forum Vol.495-497 (2005) p. 1535.

The Effect of Stepped Wall of the Graphite Crucible in Top Seeded Solution Growth of SiC Crystal Su-Hun Choi1,2,a, Young-Gon Kim1,2,b, Yun-Ji Shin1,c, Seong-Min Jeong1,d, Myung-Hyun Lee1,e, Chae-Young Lee2,f, Jeong-Min Choi2,g, Mi-Seon Park2,h, Yeon-Suk Jang2,i, Won-Jae Lee2,j* 1Energy and Environmental Division, Korea Institute of Ceramic Engineering and Technology, Jinju 52851, Korea 2Department of Advanced Materials Engineering, Dong-Eui University, 176, Eomgwang-ro, Busanjin-gu, Busan, 47340, Korea atngns2923@naver.com, brhsl0223@naver.com, cshinyj@kicet.re.kr, dsmjeong@kicet.re.kr, emhlee@kicet.re.kr, fdeu8664@naver.com, gjeungmin1212@naver.com, hmi_seon7@naver.com, id91052@nate.com, jleewj@deu.ac.kr* Keywords: Silicon Carbide, Crystal Growth, TSSG, Crucible modification, Carbon concentration Abstract.
Forum. 13-16, (2010) 645-648
Forum. 778-780, (2014) 63-66

Materials Science Forum Vols. *** (2004) pp.401-404 online at http://scientific.net  2004 Trans Tech Publications, Switzerland Research Status Quo of Simulation Design Methods for Ceramic Tool Materials L.Q.
Liu 1,d 1 Centre for Advanced Jet Engineering Technologies(CaJET), School of Mechanical Engineering, Shandong University, Jinan 250061, China a liqiangxu@tom.com, bhuangcz@sdu.edu.cn, csuilw@sdu.edu.cn, dlhl70@sdu.edu.cn Keywords: Ceramic materials, Simulation, Artificial neural network, Regression analysis, Pattern recognition Abstract.
Shen [8] regressively analyzed experimental Materials Science Forum Vols. *** 403 data on the friction pair between Si3N4 ceramic and cast iron, suggested that the influence of load is much greater than that of velocity.
He: Materials for Mechanical Engineering Vol. 26 (2002), p. 7 [4] J.Q.
Xu: Diamond & Abrasives Engineering Vol. 24 (2003), p. 24 [8] Z.G.

Ecomaterials research is an interdisciplinary field that scientists and engineers with background among chemistry, physics, and materials such as metals, ceramics, polymers, and carbon are involved in understanding the environmental consciousness in industries and motivating ecological researches.
This conference provided an ideal platform and excellent opportunity for researchers and experts in eco-materials and related science and engineering fields from around the world to exchange research ideas and practical experiences.
The topics of the ISEPD2017 was closely related to green processing of eco-materials including environment friendly, resource and energy saving processes, advanced eco-materials such as nanostructures, hybrids, porous materials, bio-materials, energy conversion materials and technology including batteries, capacitors, solar cells, fuel cells, and so on, environmental protection materials such as catalysts, photocatalysts, adsorbents, sensors, coating etc., long-term use materials including long-term durability, high reliability, heat resistance, wear resistance, coating, self-healing, maintenance free, etc., and special subject relating to "Mixed Anion compounds" such as oxynitride/oxyhydride etc. toward photocatalyst, ionic conductor, fuel cell, thermoelectric material, phosphor, dielectric material and so on.
We also would like to thank the generous financial support so far through the Core University Program between the Korea Science and Engineering Foundation (KOSEF) and the Japanese Society of the Promotion Science (JSPS) for this series international conferences from 2000 to 2007.
Torres-Martinaz, Univeridad Autonoma De Nuevro Leon, Mexico Lian Gao, Shanghai Institute of Ceramics, China Robert Hurt, Brown University, USA Shao Xiong Zhou, Advanced Technology & Materials Co.

Preface With the rapid development of science and technology, advanced materials and manufacturing attract more attention in scientific and engineering fields.
The International Conference on Materials and Manufacturing (ICMM 2011) aims to provide a forum for the joint of academic research and industry application, to share development experiences and discuss innovative achievements in the field of materials and manufacturing.
It covers advanced structural materials, functional materials, composite materials, advanced manufacturing process and technology and vehicle engineering technology.
Major areas of advanced structural materials include iron and steel, nonferrous alloy, building materials and the other related classification; functional materials emphasize biomedical material, energy material, ecological environment material, smart material and electronic material; Composite materials involve the mechanism investigations and application progresses on both metal matrix composites and non-metallic matrix composites; Advanced manufacturing process and technology covers the entire range of basic and applied aspects of the synthesis and characterization, modeling, processing and application of advanced engineering materials; Vehicle Engineering is an important engineering technology field, focusing on the theory, design and technology problems of mobile machines on land including automobile, tractor, locomotive vehicle, military vehicle and engineering vehicles.
Hui He, Liaoning University of Technology, China Advisory board: Jimei Xiao, (Academician, Chinese Academy of Sciences, China) Bangchun Wen, (Academician, Chinese Academy of Sciences, China) Guodong Wang, (Academician, Chinese Academy of Engineering, China) Zuyao Xu, (Academician , Chinese Academy of Sciences, China) Hengzhi Fu, (Academician, Chinese Academy of Sciences, China) Yuquan Song, (Academician, Chinese Academy of Sciences, China) Sam Zhang (Professor, Nanyang Technological University, Singapore) Rian Dippennaar (Professor, The University of Wollongong, Australia) Fuxing Yin (Chief Researcher, National Institute for Materials Science, Japan) Jorg Wallaschek (Professor, Paderborn University, Germany) Chang-Myung Lee (Professor, University of Ulsan, Korea) Scholarship Committee Chairs: Prof.

Preface The 3rd International Conference on Chemical Engineering and Advanced Materials (CEAM 2013) was successfully taken place in Guangzhou, China, on July 6-7, 2013.
The objective of the 2013 International Conference on Chemical Engineering and Advanced Materials (CEAM 2013) is to provide a forum for the discussion of new developments, recent progress, and innovations in the chemical engineering and advanced materials.
The Committee of CEAM 2013 The 3rd International Conference on Chemical Engineering and Advanced Materials (CEAM 2013) Organized by: Guangdong University of Technology, China Co-organized by: Guangdong Petrochemical Research Institute Guangzhou University, China Supported by: National Natural Science Foundation of China Conference Organization Chairman Academician Prof.
Guoqiang Yin, Zhongkai University of Agriculture and Engineering,China Prof.
Liewen Liao, Zhongkai University of Agriculture and Engineering,China Prof.

Advanced Materials, 2007, 19, 1043-1053
Series: Materials Science and Engineering, 2018, 423, 012052
Materials Science Forum,2019,956:332-341
Materials Science Forum, 2019, 956: 46-54
International Journal of Advanced Materials and Production, 2016, 1(1), 62-68

Hayashi: Nuclear Engineering and Design, Vol. 144, p. 439-447 (1993)
Hattori: Transactions of the ASME, Journal of Engineering Materials and Technology, Vol. 122, p. 98-103 (2000)
Mochizuki: Science and Technology in Advanced Materials, Vol. 5, p. 255- 266 (2004)
Mochizuki: Nuclear Engineering & Design, Vol. 237, p. 107-123 (2007)
Nakakado: Transactions of the ASME, Journal of Engineering Materials and Technology, Vol. 122, p. 108-112 (2000)

Materials Science Forum Vols. *** (2004) pp.573-576 online at http://scientific.net Ó 2004 Trans Tech Publications, Switzerland Fine-grained Access Control of PDM and CAPP S.H.
Jiang3,b 1 Department of Computer Science and Technology, Shandong Economic University, Jinan 250014, P.R.China 2 School of Computer Science and Technology, Shandong University, Jinan 250061, P.R.China 3 Mechanical Engineering School, Shandong University, Jinan 250061, P.R.China a shihong@mail.sdu.edu.cn, b jzljeff@163.com Keywords: Security, Attribute certificate, PDM, CAPP, Access control Abstract.
RBAC Advances in Materials Manufacturing Science and Technology 574 creates M:N relationship between user and role for assigning one or many roles to a user, showed in Eq.1.
Role Assignment Server Web Server AC LDAP Server Authentication Module Policy of Access Contorl Role Database PDM/CAPP Server PKC Database Attribute Authority Source of Authority Public Key Certificate Server User Browser Fig.2 The Proposed Operational Model Advances in Materials Manufacturing Science and Technology 576 Conclusions The definition of a fine-grained access control mechanism for protecting data of the integrated PDM and CAPP system becomes an important research field.
After all, it is an immensely systematic engineering involved many different factors, such as hardware, software and so on.

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 conference brings together leading researchers, engineers and scientists in the domain of interest from around the world.
Following the style of the previous two successful congresses, the 3rd International Conference on Manufacturing Science and Engineering was held in Xiamen, China, 27-29 March 2012, Organized by Fujian University of Technology, Xiamen University, Fuzhou University, Huaqiao University, University of Wollongong, Fujian Mechanical Engineering Society, China and Hong Kong Industrial Technology Research Centre.
The program was designed to advance manufacturing technologies to the next generation through discussion of the most recent advances and future perspectives, and to engage the worldwide community in a collective effort to solve problems in manufacturing.
The present volumes provide up-to-date, comprehensive and worldwide state-of-the art knowledge of the manufacturing science and engineering, including: advanced composite materials, advanced mechanical design, new materials and processes, advanced manufacturing technology, automation equipment and systems.