Search results

Silveira Lira4,h 1Materials Engineering Department, Federal University of Campina Grande, Paraíba, Brazil 2Centro de Ensino Superior e Desenvolvimento, Paraíba, Brazil 3Federal Institute of Campina Grande, Paraíba, Brazil 4Federal University of Pernambuco, Pernambuco, Brazil ahelio.lira@ufcg.edu.br, brosacolima@yahoo.com.br, cilianaguimaraes@hotmail.com, dgelmires.araujo@ufcg.edu.br, ernobregat@gmail.com, fdanielslira@gmail.com, gmoisesnetu@gmail.com, hbrunaslira@gmail.com Keywords: Ceramic membrane; inorganic residue; effluents; porous ceramic.
A selection of these can be found in the Proceedings of the Materials Science Forum [21-23].
Li, 2 - Advances in ceramic membranes for water treatment, in: Advances in Membrane Technologies for Water Treatment, Woodhead Publishing, Oxford, 2015, pp. 43-82
França, Use of Ceramic Membrane for Indigo Separation in Effluent from Textile Industry, Materials Science Forum, 798-799 (2014) 537-541
Purkait, Microfiltration of mosambi juice using low cost ceramic membrane, Journal of Food Engineering, 95 (2009) 597-605

An ever-increasing demand for biocompatible materials provides motivation for the development of advanced materials for challenging applications ranging from disease detection to organ function restoration.
Even though the properties of CNTs have been studied and applied in tissue engineering and biosensing [1], there are still some contradictions regarding their biocompatibility as CNTs have been reported to be cytotoxic [1,3].
The surface topography analysis was done using an XE-100 Advanced Scanning Microscope from Park Systems.
Jaroszeski of the Chemical and Biomedical Engineering Dept. at USF for HaCaT cell culture assistance.
Forum 615-617 (2009) p. 589-592 [12] C Coletti, C Riedl, DS Lee, B Krauss, K von Klitzing, J Smet, U Starke: Phys Rev.

Computing in Science and Engineering, 12(3):66. (2010) [5] Microsoft.
In the Proceedings of IEEE International Symposium on Parallel and Distributed Processing Workshops and Phd Forum (IPDPSW), pages 82–92. (2011) [8] Al´ecio P.D.
In the Proceedings of IEEE International Symposium on Parallel & Distributed Processing Workshops and Phd Forum (IPDPSW), pages 1–4. (2010) [9] I.
In Recent Advances in Parallel Virtual Machine and Message Passing Interface, Springer, pages 64–74. (2008) [10] S.

Construction of teaching forum resources.Required teaching resources are mainly acquired through the network and the own production of the teaching and research section, including text information, picture information, video information, teaching video, online teaching courseware, network resource library, etc.
Students put forward requirements and suggestions for teachers in terms of classroom teaching mode, classroom teaching assisted by the campus network, learning content, forum style, self-studying resources and others, so as to strengthen communications between teachers and students, promote classroom teaching, and improve the auxiliary platform construction of classroom teaching.
The outlook on the construction of teaching forum based on campus network With the improvement of conditions in colleges and universities, the increase of campus public computers and personal computers of students, the more and more convenient Internet surfing with mobile phones, and the rapid development of campus network, students now have relatively sound conditions of learning through network.
Establishing a Teaching Network Platform and Advancing the Reform of Clinical Teaching Mode.
Physics and Engineering, 2006, 16(6): 41-44.

Fumio Saito Institute of Multidisciplinary Research for Advanced Materials, Tohoku University, Japan prof.
Adriana Estokova Technical University of Kosice Faculty of Civil Engineering Institute of Environmental Engineering Department of Material Engineering Dr.
Eva Singovszka Technical University of Kosice Faculty of Civil Engineering Institute of Environmental Engineering Department of Environmental Engineering Dr.
Julia Cigasova Technical University of Kosice Faculty of Civil Engineering Institute of Environmental Engineering Department of Material Engineering Eng.
Stefan Demcak Technical University of Kosice Faculty of Civil Engineering Institute of Environmental Engineering Department of Environmental Engineering MAIN EDITORS prof.

Vol.218(2008), p. 446 [5] C.G.Zhu, R.H.Wang: Mathematical Problems in Engineering,Vol.2007(2007), p. 11 [6] C.
) [8] Z.M.Wu: Advances in Mathematics Vol.27(1998), p. 202 [9] Z.M.Wu: Advances in Computational Mathematics, Vol.4(1995), p. 283 [10] H.Wendland: Advances in Computational Mathematics, Vol.4(1995), p. 389 [11] M.S.Floater, A.Iske: J.Comput.
Unsworth: Computer Graphics Forum Vol.24 (2005), p.809

Effect of Compressive Strain on Electrical Resistivity of Carbon Nanotube Cement-based Composites Jianlin Luo1, a, Zhongdong Duan2, b, Tiejun Zhao1, c, Qiuyi LiP1,d 1, School of Civil Engineering, Qingdao Technological University, Qingdao, Shandong Province, CHINA 2,School of Civil Engineering, Harbin Institute of Technology, Harbin, Heilongjiang Province, CHINA alawjanelim@qtech.edu.cn , bduanzd@hit.edu.cn, cztjgp@qtech.edu.cn, dlqyyxn@163.com Key words: Carbon nanotube, Advanced cement material, Piezoresistivity property Abstract.
Duan, in: World Forum on Smart Materials and Smart Structures Technology, edited by B.

Research on Intelligent Inspection Machine based on linear CCD Jiafang Zhang1, 2, a, Zongqing Lu1, 2, b, Zhao Wang1, 2, c, Qingke Yuan3,d and Guangkai Wang3,e 1 Shenzhen Institutes of Advanced Technology, Chinese Academy of Sciences, China 2The Chinese University of Hong Kong 3Guangdong University of Technology, China ahnndzjf@163.com, bmail_leolu@tom.com, czhao.wang@siat.ac.cn, dqkyuan@gdut.edu.cn, ewgkai123@163.com Keywords: Intelligent inspection machine; Linear CCD; Injection liquid inspection; Particles; Bilateral Filtering Abstract.
Acknowledgements This work is financially supported by the National Science Foundation (11002082) ,Shenzhen Science and Technology research and development (JC201005280629A), Key Laboratory of Robotics and Intelligent System of Guangdong Province (2009A060800016), CAS and Locality Cooperation Projects (ZNGZ-2011-012), Shenzhen-Kong Kong Innovation Circle Project (JSE201007200037A), Guangdong-CAS Strategic Cooperation Program (2010A090100016), and Shenzhen Key Laboratory of Precision Engineering (Project No:CXB201005250018A) References [1] J.
Forum Vol.2,1646-1650,1998
Macduchi: Computer Vision, Forum 839-846, 1998.

Temperature Evolution and Optimization of Hot Extrusion Process for Al-Zn-Mg-Cu Aluminium Alloy Based on FEM Simulation Lei Xu1, Guangze Dai1,a , Xingmin Huang1, Junwen Zhao1, Jing Han1 and Jiewei Gao1 1 Key Laboratory of Advanced Technologies of Materials (Ministry of Education), School of Materials Science and Engineering, Southwest Jiaotong University, Chengdu, 610031, RP China ag.dai@163.com Keywords: Hot extrusion; Numerical simulation; Al-Zn-Mg-Cu aluminium alloy.
Forum 426–432 (2003)3807
Sci.Forum 426–432 (2003) 3777

Park Department of Materials Science and Metallurgical Engineering, Nanomaterials Research Center, Sunchon National University, Sunchon 540-742, Korea Keywords: Electroforming, Grain Growth, Invar, Nanostructure, OIM, Texture Abstract.
Acknowledgment This research was supported by a grant from the Center for Advanced Materials Processing (CAMP) of the 21st Century Frontier R&D Program funded by the Ministry of Science and Technology, Korea.
Forum Vol. 408-412 (2002), p. 931
Forum Vol. 408-412 (2002), p. 919