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Online since: June 2014
Authors: Carlos Maurício Fontes Vieira, Monica Castoldi Borlini Gadioli, Michelle Pereira Babisk, Sergio Neves Monteiro, Veronica Scarpini Candido, Mariane Costalonga de Aguiar
Pedro Calmon, 900, 21941-908, Cidade Universitária, Rio de Janeiro – RJ, Brazil.
3 - IME - Military Institute of Engineering, Department of Materials Science, Praça General Tibúrcio, 80, 22290-270, Rio de Janeiro, Brazil.
Forum Vols. 727-728 (2012), p. 619
Forum Vols. 727-728 (2012), p. 809
Forum Vols. 727-728 (2012), p. 1057
Forum, 2013
Forum Vols. 727-728 (2012), p. 619
Forum Vols. 727-728 (2012), p. 809
Forum Vols. 727-728 (2012), p. 1057
Forum, 2013
Online since: December 2004
Authors: Zhan Qiang Liu, Yi Wan, Xing Ai
Ai1,c
1
School of Mechanical Engineering, Shandong University, Jinan, 250061, PR China
a
melius@sdu.edu.cn, bwanyiterry@sohu.com, caixing@sdu.edu.cn
Keywords: Tool materials, High speed machining, Tool materials selection
Abstract.
There has been a strong resurgence of interest in high speed machining technology, so that it has become one of the most promising advanced manufacturing technologies in the last twenty years.
Conclusions High speed machining technology has become one of the most promising advanced manufacturing technologies.
Deng: Key Engineering Materials, Special Volume (1995), p. 53 [4] C.Z.
Mielert: Cutting Tool Engineering, Vol. 40 (1996), p. 40 [7] X.
There has been a strong resurgence of interest in high speed machining technology, so that it has become one of the most promising advanced manufacturing technologies in the last twenty years.
Conclusions High speed machining technology has become one of the most promising advanced manufacturing technologies.
Deng: Key Engineering Materials, Special Volume (1995), p. 53 [4] C.Z.
Mielert: Cutting Tool Engineering, Vol. 40 (1996), p. 40 [7] X.
Online since: December 2004
Authors: Yan Shen Xu, F.Y. Zhang, D.J. Hu
Materials Science Forum Vols. *** (2004) pp.613-619
online at http://scientific.net
2004 Trans Tech Publications, Switzerland
The Objectives Decision Making Study in Product Innovation
Development Process Based On TRIZ Technology Evolution Theory
F.Y.
Hu 1,c 1 CAD/CAM Lab, Department of Mechanical Engineering, Tianjin University, Tianjin, China 300072 a fyzhang@twtmail.tju.cn, byshxu@tju.edu.cn, chudj2000@yahoo.com Keyword: TRIZ theory of technology evolution, Objects decision-making in product development, Evolutionary potential, Innovation strategy Abstract.
Former two steps determining the technology level, and retral Fig.2 Evolutionary potential radar plot Materials Science Forum Vols. *** 615 two steps accomplish object analysis and decision-making.
Materials Science Forum Vols. *** 617 The outside perimeter of the plot represents evolutionary limit at present, it is a removable perimeter with the progress of technology environment.
Luke: A Conceptual Design Tool for Engineers: An Amalgamation of Theory of Constraints,theory of Iinventive Problem Solving and Logic (Old Dominion University, U.K. 2002) [4] J.F.
Hu 1,c 1 CAD/CAM Lab, Department of Mechanical Engineering, Tianjin University, Tianjin, China 300072 a fyzhang@twtmail.tju.cn, byshxu@tju.edu.cn, chudj2000@yahoo.com Keyword: TRIZ theory of technology evolution, Objects decision-making in product development, Evolutionary potential, Innovation strategy Abstract.
Former two steps determining the technology level, and retral Fig.2 Evolutionary potential radar plot Materials Science Forum Vols. *** 615 two steps accomplish object analysis and decision-making.
Materials Science Forum Vols. *** 617 The outside perimeter of the plot represents evolutionary limit at present, it is a removable perimeter with the progress of technology environment.
Luke: A Conceptual Design Tool for Engineers: An Amalgamation of Theory of Constraints,theory of Iinventive Problem Solving and Logic (Old Dominion University, U.K. 2002) [4] J.F.
Online since: January 2013
Authors: Kazuaki Seki, Toru Ujihara, Yuji Yamamoto, Atsushi Horio, Takato Mitsuhashi, Shunta Harada
Forum 600-603 (2009) 267-272
Janzen, Current status and advances in the growth of SiC, Diamond Relat.
Forum 615-617 (2009) 137-140
Forum 717-720 (2012) 53-56
Forum 717-720 (2012) 335-338
Janzen, Current status and advances in the growth of SiC, Diamond Relat.
Forum 615-617 (2009) 137-140
Forum 717-720 (2012) 53-56
Forum 717-720 (2012) 335-338
Online since: December 2004
Authors: Dong Ming Guo, Ren Ke Kang, Zhu Ji Jin, Jian Xiu Su, Y.B. Tian
Hahn: Microelectronic Engineering Vol. 56 (2001), p. 3
[2] S.L.
Guo, et al: Diamond & Abrasives Engineering Vol. 136 (2003), p. 13 (in Chinese) [5] H.Ohmori and T.Nakagawa: Annals of CIRP Vol. 39 (1990), p. 329 [6] D.J.
Veselovac: Precision Engineering Vol. 25 (2001), p. 336 [7] D.L.
Li: China Mechanical Engineering Vol.10 (1999), p. 566 (in Chinese) [8] S.Matsui: Bull.
Advances in Materials Manufacturing Science and Technology 368 [10] Z.J.
Guo, et al: Diamond & Abrasives Engineering Vol. 136 (2003), p. 13 (in Chinese) [5] H.Ohmori and T.Nakagawa: Annals of CIRP Vol. 39 (1990), p. 329 [6] D.J.
Veselovac: Precision Engineering Vol. 25 (2001), p. 336 [7] D.L.
Li: China Mechanical Engineering Vol.10 (1999), p. 566 (in Chinese) [8] S.Matsui: Bull.
Advances in Materials Manufacturing Science and Technology 368 [10] Z.J.
Online since: April 2019
Authors: Choudhari Rajashekhar, K.V. Prasad, Hanumesh Vaidya, Gudekote Manjunatha, Oluwole Daniel Makinde
Jagannath, DTM simulation of peristaltic viscoelastic biofluids flow in asymmetric porous media: A digestive transport model, Journal of Bionic Engineering, 12 (2015) 643-655
Sinha, Electro-magnetihydrodynamic flow of biofluids induced by peristaltic wave: A non-Newtonian model, Journal of Bionic Engineering, 13 (2016) 436-448
Rajashekhar, Slip effects on peristaltic transport of Casson fluid in an inclined elastic tube with porous walls, Journal of Advanced Research in Fluid Mechanics and Thermal Sciences, 43 (2018) 67-80
Hanumesh, Peristaltic transport of two-layered blood flow using Herschel-Bulkley model, Cogent Engineering, 5 (2018) 1-16
Nadeem, Analysis of combined convective and viscous dissipation effects for peristaltic flow Rabinowitsch fluid model, Journal of Bionic Engineering, 14 (2017) 182-190
Sinha, Electro-magnetihydrodynamic flow of biofluids induced by peristaltic wave: A non-Newtonian model, Journal of Bionic Engineering, 13 (2016) 436-448
Rajashekhar, Slip effects on peristaltic transport of Casson fluid in an inclined elastic tube with porous walls, Journal of Advanced Research in Fluid Mechanics and Thermal Sciences, 43 (2018) 67-80
Hanumesh, Peristaltic transport of two-layered blood flow using Herschel-Bulkley model, Cogent Engineering, 5 (2018) 1-16
Nadeem, Analysis of combined convective and viscous dissipation effects for peristaltic flow Rabinowitsch fluid model, Journal of Bionic Engineering, 14 (2017) 182-190
Online since: August 2017
Authors: Mariano Marcos Bárcena, José Ríos, Fernando Mas, Carlos Vila, Done Ugarte, Thierry Chevrot
Collaboration with the aerospace industry
Currently, the main objectives of the aerospace industry are directly linked to industrial projects framed within different European ‘Advanced Manufacturing’ initiatives, e.g.
[Industry forum].
Fielding, et al., Product lifecycle management in design and engineering education: International perspectives, Concurrent Engineering, 22 (2014) 123-134
Treagust, Engineering education—Is problem-based or project-based learning the answer, Australasian Journal of Engineering Education, 3 (2003) 2-16
Batista, et al., Design and Development of Integrated Lab-Practical Class in Manufacturing Engineering, Materials Science Forum 759 (2013) 27-38
[Industry forum].
Fielding, et al., Product lifecycle management in design and engineering education: International perspectives, Concurrent Engineering, 22 (2014) 123-134
Treagust, Engineering education—Is problem-based or project-based learning the answer, Australasian Journal of Engineering Education, 3 (2003) 2-16
Batista, et al., Design and Development of Integrated Lab-Practical Class in Manufacturing Engineering, Materials Science Forum 759 (2013) 27-38
Online since: September 2020
Authors: Ibrahim Siti Aida, Anika Zafiah Mohd Rus, Ezatul Kamaliah Samsuddin, Marsi Noraini
Preparation of TiO2 Decorated Eggshell Membrane for Photocatalytic Dye Degradation
SAMSUDDIN Ezatul Kamaliah1,a, IBRAHIM Siti Aida1,3,b,*,
MARSI Noraini1,c and MD RUS Anika Zafiah2,3,d
1Faculty of Engineering Technology, UniversitiTun Hussein Onn Malaysia (Pagoh Campus),
84600 Panchor, Johor, Malaysia
2Faculty of Mechanical &Manufacturing Engineering, UniversitiTun Hussein Onn Malaysia,
Parit Raja, 86400 BatuPahat, Johor DarulTakzim, Malaysia
3Sustainable Polymer Engineering, Advanced Manufacturing and Material Center (SPEN-AMMC), UniversitiTun Hussein Onn Malaysia (UTHM), 86400 Parit Raja, BatuPahat, Johor, Malaysia
aeiyzaezatul@gmail.com, bsaida@uthm.edu.my, cnoraini@uthm.edu.my, danika@uthm.edu.my
Keywords:TiO2; Eggshell membrane; Photocatalysis
Abstract.
Pillai, Recent advances in photocatalysis for environmental applications, Journal of Environmental Chemical Engineering. 6 (2018) 3531-3555
Srimala, SA Ibrahim, Fe-TiO2 nanoparticles by hydrothermal treatment with photocatalytic activity enhancement, Advanced Materials Research, 1024 (2014) 39-43
Ainuddin, Growth of nanostructured ZnO nanosheet on ITO/PET substrate prepared via sol gel spin coating and hot water treatment, Advanced Materials Research, Trans Tech Publ.(2016) 272-275
Ibrahim, Effect of Fe addition towards TiO2 formation for photocatalytic activity, ARPN Journal of Engineering and Applied Sciences, 11 (2016) 8704-8709
Pillai, Recent advances in photocatalysis for environmental applications, Journal of Environmental Chemical Engineering. 6 (2018) 3531-3555
Srimala, SA Ibrahim, Fe-TiO2 nanoparticles by hydrothermal treatment with photocatalytic activity enhancement, Advanced Materials Research, 1024 (2014) 39-43
Ainuddin, Growth of nanostructured ZnO nanosheet on ITO/PET substrate prepared via sol gel spin coating and hot water treatment, Advanced Materials Research, Trans Tech Publ.(2016) 272-275
Ibrahim, Effect of Fe addition towards TiO2 formation for photocatalytic activity, ARPN Journal of Engineering and Applied Sciences, 11 (2016) 8704-8709
Online since: July 2020
Authors: Satoshi Kamiyama, Tetsuya Takeuchi, Motoaki Iwaya, Daiki Tanaka, Isamu Akasaki, Wei Fang Lu
Zhang, Phosphors in phosphor-converted white light-emitting diodes: Recent advances in materials, techniques and properties, Materials Science and Engineering: R: Reports 71 (2010) 1-34
Forum Vol. 717-720 (2012) pp87-92
Series: Materials Science and Engineering 56 (2014) 012005
Syväjärvi, Carrier lifetimes and influence of in-grown defects in NB co-doped 6H-SiC, IOP Conference Series: Materials Science and Engineering, IOP Publishing, (2014) 012004
Lilov, Epitaxial growth of 4H–SiC by sublimation close space technique, Materials Science and Engineering B 61 (1999) 121-124
Forum Vol. 717-720 (2012) pp87-92
Series: Materials Science and Engineering 56 (2014) 012005
Syväjärvi, Carrier lifetimes and influence of in-grown defects in NB co-doped 6H-SiC, IOP Conference Series: Materials Science and Engineering, IOP Publishing, (2014) 012004
Lilov, Epitaxial growth of 4H–SiC by sublimation close space technique, Materials Science and Engineering B 61 (1999) 121-124
Online since: December 2013
Authors: Qiang Hao
Extract EPS from MT genetic engineering bacteria.Study the promoting effect of EPS to the leaching of Cr, Zn in sludge.
Result Analysis Distribution characteristics of heavy metals in EPS and cell.EPS just is Extracellular Polymeric Substances,when MT gene engineering bacteria are in the presence of nutrients conditions, it can form extracellular polymeric substances EPS(MT).This is organic polymer that release out by MT gene engineering bacteria.
Summary In this paper,we studied distribution characteristics of heavy metals in EPS and cell in bioleaching,which the Large Molecules EPS are formed by MT gene engineering bacteria.
Forum Vol. 83-87 (1992), p. 119 [2] M.A.
Mishing, in: Diffusion Processes in Advanced Technological Materials, edtied by D.
Result Analysis Distribution characteristics of heavy metals in EPS and cell.EPS just is Extracellular Polymeric Substances,when MT gene engineering bacteria are in the presence of nutrients conditions, it can form extracellular polymeric substances EPS(MT).This is organic polymer that release out by MT gene engineering bacteria.
Summary In this paper,we studied distribution characteristics of heavy metals in EPS and cell in bioleaching,which the Large Molecules EPS are formed by MT gene engineering bacteria.
Forum Vol. 83-87 (1992), p. 119 [2] M.A.
Mishing, in: Diffusion Processes in Advanced Technological Materials, edtied by D.