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Online since: December 2013
Authors: Guo Dong Yan, Jin Feng Chu
Implications of the Development Driving Models of the World Famous Tourism Cities for Shanghai
Yan Guodong 1, a and Chu Jinfeng2,b
1School of Management, Shanghai University of Engineering Science, China
a yanguodong@163.com, b chujf@sues.edu.cn
Keywords: World Famous Tourism Cities, Driving Models, Shanghai
Abstract.
Major Development Driving Models of the World Famous Tourism Cities New York City: Driving the Advanced Development of Tourism by Economic Forces.
The highly developed urban economy and social conditions of the New York City promotes the advanced development of its tourism industry.
This is a model for driving the advanced development of tourism by economic forces.
Consequently, Hong Kong has become one of the regions in the world with advanced tourism industry and one of a few major tourism centers in the Asia and Pacific Area.
Major Development Driving Models of the World Famous Tourism Cities New York City: Driving the Advanced Development of Tourism by Economic Forces.
The highly developed urban economy and social conditions of the New York City promotes the advanced development of its tourism industry.
This is a model for driving the advanced development of tourism by economic forces.
Consequently, Hong Kong has become one of the regions in the world with advanced tourism industry and one of a few major tourism centers in the Asia and Pacific Area.
Online since: August 2011
Authors: Ying Lian Wang, Jun Yao Ye
Review and development of crystalline silicon solar cell with intelligent materials
YingLian Wang1, a, JunYao Ye2,b
1 Department of Mechanical and Electronic Engineering, Jingdezhen Ceramic Institute, 333403, China
2College of Information and Engineering, Jingdezhen Ceramic Institute, 333403, China
asdwyl@126.com, bsdyejunyao@126.com
Keywords: Monocrystalline silicon, Polycrystalline silicon, Amorphous silicon, Solar cells, Intelligent materials
Abstract: The application of solar cell has offered human society renewable clean energy.
Beijing Solar Energy Research Institute developed the comprehensive utilization of variety of advanced silicon solar cell technology; the photoelectric conversion efficiency reached 19.8%.
Energy Engineering. 1, 24-27 ( 2008)
Industry Forum. 7, 14-16 (2003)
Materials Science and Engineering B. 153, 66-69 (2008)
Beijing Solar Energy Research Institute developed the comprehensive utilization of variety of advanced silicon solar cell technology; the photoelectric conversion efficiency reached 19.8%.
Energy Engineering. 1, 24-27 ( 2008)
Industry Forum. 7, 14-16 (2003)
Materials Science and Engineering B. 153, 66-69 (2008)
Online since: December 2012
Authors: Nor F. Za’bah, Kelvin S.K. Kwa, Anthony O’Neill
Kwab and Anthony O’Neillb
a Department of Electrical and Computer Engineering, Kulliyyah of Engineering,
International Islamic University Malaysia, P.O.
Box 10, 50728 , Kuala Lumpur, Malaysia b School of Electrical, Electronic and Computer Engineering, Newcastle University, Newcastle upon Tyne, NE1 7RU, United Kingdom Keywords: Silicon Nanowire; KOH; TMAH; LER Abstract.A top-down silicon nanowire fabrication using a combination of optical lithography and orientation dependent etching has been developed using Silicon-on Insulator (SOI) as the starting substrate.
Subramanian, "Smooth etching of silicon using TMAH and isopropyl alcohol for MEMS applications " Microelectronic Engineering, vol. 77, 2004
Ashruf, "Anisotropic wet etching of silicon with alkaline etchants” in Forum for MEMS Technology, Sensors and Systems, February 2011
Brainard, "Advanced Processes for 193-nm Immersion Lithography”, 2009
Box 10, 50728 , Kuala Lumpur, Malaysia b School of Electrical, Electronic and Computer Engineering, Newcastle University, Newcastle upon Tyne, NE1 7RU, United Kingdom Keywords: Silicon Nanowire; KOH; TMAH; LER Abstract.A top-down silicon nanowire fabrication using a combination of optical lithography and orientation dependent etching has been developed using Silicon-on Insulator (SOI) as the starting substrate.
Subramanian, "Smooth etching of silicon using TMAH and isopropyl alcohol for MEMS applications " Microelectronic Engineering, vol. 77, 2004
Ashruf, "Anisotropic wet etching of silicon with alkaline etchants” in Forum for MEMS Technology, Sensors and Systems, February 2011
Brainard, "Advanced Processes for 193-nm Immersion Lithography”, 2009
Online since: July 2008
Authors: You Tang Li, Zhi Yuan Rui, Chang Feng Yan
The new surface forming method of solid materials is an important part in
advanced manufacturing.
In the applying research of crack theory, how to make crack quickly is a key problem that meets demand of high efficient production in engineering.
Materials Science Forum Vols.437-438 (2003) p.309 [5] Li Y T, Ma P and Yan C F.
Key Engineering Materials Vols.324-325 (2006) p. 503 [6] Li Y T and Yan C F.
Key Engineering Materials Vols.306-308 (2006) p. 7 [7] Cook T S and Erdogan F.
In the applying research of crack theory, how to make crack quickly is a key problem that meets demand of high efficient production in engineering.
Materials Science Forum Vols.437-438 (2003) p.309 [5] Li Y T, Ma P and Yan C F.
Key Engineering Materials Vols.324-325 (2006) p. 503 [6] Li Y T and Yan C F.
Key Engineering Materials Vols.306-308 (2006) p. 7 [7] Cook T S and Erdogan F.
Online since: October 2022
Authors: Marcelo Toapanta, José Luis Mullo, Lorena Camacho-Játiva, Germán Omar Barrionuevo
Camacho-Játiva3,d
1Department of Mechanical and Metallurgical Engineering, School of Engineering, Pontificia Universidad Católica de Chile, Av.
This work describes the advances in manufacturing for the recovery of hydraulic turbines.
Acknowledgments The authors acknowledge the Research Center for the recovery of hydro turbines and Industrial Parts (CIRT) and the Research Center for Nanotechnology and Advanced Materials (CIEN-UC).
Forum, vol. 943 MSF, pp. 8–13, 2018
This work describes the advances in manufacturing for the recovery of hydraulic turbines.
Acknowledgments The authors acknowledge the Research Center for the recovery of hydro turbines and Industrial Parts (CIRT) and the Research Center for Nanotechnology and Advanced Materials (CIEN-UC).
Forum, vol. 943 MSF, pp. 8–13, 2018
Online since: May 2010
Authors: J. Eiken
Forum
419-422 (2003), p. 315
[2] D.
Chalmers, Transactions of the American Institute of Mining and Metallurgical Engineers, 215 (1959), p. 447 [3] P.
Reed, Materials Science and Engineering A, 280, (2000), p. 233 [4] Y.Z.
Reed, Materials Science and Engineering A, 280, (2000), p. 233 [6] A.
Ohno, Advanced Engineering Materials 7, (2005), p. 1142 [13] Z.
Chalmers, Transactions of the American Institute of Mining and Metallurgical Engineers, 215 (1959), p. 447 [3] P.
Reed, Materials Science and Engineering A, 280, (2000), p. 233 [4] Y.Z.
Reed, Materials Science and Engineering A, 280, (2000), p. 233 [6] A.
Ohno, Advanced Engineering Materials 7, (2005), p. 1142 [13] Z.
Online since: July 2011
Authors: Aamir Mukhtar, De Liang Zhang
%Al2O3 Composites Produced by Powder Compact Forging
Aamir Mukhtara and Deliang Zhangb
Waikato Centre for Advanced Materials (WaiCAM), Department of Engineering,
The University of Waikato, Private Bag 3105, Hamilton, New Zealand
aam113@waikato.ac.nz, bdlzhang@waikato.ac.nz
Keywords: high energy mechanical milling, powder compact forging, mechanical properties.
Fig. 4 shows the tensile engineering stress-engineering strain curves of the specimens cut from the Cu and Cu- Al2O3 composite forged disks.
Fig. 4: Tensile engineering stress-engineering strain curves of specimens from Cu and Cu-Al2O3 composite forged disks: (a) Cu; (b) Cu-2.5vol.
Forum, 360-362, 2001, p-241 [6] D.
Fig. 4 shows the tensile engineering stress-engineering strain curves of the specimens cut from the Cu and Cu- Al2O3 composite forged disks.
Fig. 4: Tensile engineering stress-engineering strain curves of specimens from Cu and Cu-Al2O3 composite forged disks: (a) Cu; (b) Cu-2.5vol.
Forum, 360-362, 2001, p-241 [6] D.
Online since: June 2025
Authors: Chunping Zhang, Kanwal Chadha, Jean Benoit Morin, Abdelhalim Loucif, Davood Shahriari, Mohammad Jahazi
Also, with the solidification advance, the quantity of secondary dendrite arms increases and they become the major growth component.
Series: Materials Science and Engineering 529, (2019), p. 1 [8] H.
Series: Materials Science and Engineering 27, (2011), p. 1 [9] F.C.
Forum., Vol. 941 (2018), p. 15 [13] C.
Wang: The effects of cooling rate and alloying elements on the solidification behaviour of continuously cast super-austenitic and duplex stainless steels, School of Mechanical, Materials, Mechatronics and Biomedical Engineering, Master of Material Engineering, (2019)
Series: Materials Science and Engineering 529, (2019), p. 1 [8] H.
Series: Materials Science and Engineering 27, (2011), p. 1 [9] F.C.
Forum., Vol. 941 (2018), p. 15 [13] C.
Wang: The effects of cooling rate and alloying elements on the solidification behaviour of continuously cast super-austenitic and duplex stainless steels, School of Mechanical, Materials, Mechatronics and Biomedical Engineering, Master of Material Engineering, (2019)
Online since: August 2023
Authors: Vladimir Lebedev, Tetyana Tykhomyrova, Anna Cherkashina, Katerina Lebedeva
Tanaka Designing smart biomaterials for tissue engineering, International Journal of Molecular Sciences. 19 (2018) 17
Lelkes, On the road to smart biomaterials for bone research: Definitions, concepts, advances, and outlook, Bone Research. 9 (2021):1–16
Alvarez, J.G Hardy., M.F Desimone, Stimuli-responsive materials for tissue engineering and drug delivery, International Journal of Molecular Sciences. 21 (2020) 4724
Ferguson, Reinforcement of mono- and bi-layer Poly(Ethylene Glycol) hydrogels with a fibrous collagen scaffold, Annals of Biomedical Engineering. 43 (2015) 2618–2629
Saimbetova, Design and Research of Eco-Friendly Polymer Composites, Materials Science Forum. 1006 (2020) 259–266
Lelkes, On the road to smart biomaterials for bone research: Definitions, concepts, advances, and outlook, Bone Research. 9 (2021):1–16
Alvarez, J.G Hardy., M.F Desimone, Stimuli-responsive materials for tissue engineering and drug delivery, International Journal of Molecular Sciences. 21 (2020) 4724
Ferguson, Reinforcement of mono- and bi-layer Poly(Ethylene Glycol) hydrogels with a fibrous collagen scaffold, Annals of Biomedical Engineering. 43 (2015) 2618–2629
Saimbetova, Design and Research of Eco-Friendly Polymer Composites, Materials Science Forum. 1006 (2020) 259–266
Online since: May 2021
Authors: Djoko Sihono Gabriel, Ahmad Fachrizal, Tiara Verita Yastica
Law, “Production, use, and fate of all plastics ever made,” Science Advances, vol. 3 (1700782), pp. 1-5, 2017
[2] J.R.
Gabriel, “How to increase plastic waste acceptance for mechanical recycling: An introduction to material value conservation and its phenomenon,” Key Engineering Materials, vol. 705, pp. 362- 367, 2016
Maulana, “Impact of plastic labelling, coloring and printing on material value conservation in the products of secondary recycling,” Key Engineering Materials, vol. 773, pp. 384- 389, 2018
Hapsari, “Plastic packaging material value conservation and the structure of stakeholder role”, Key Engineering Materials, vol. 773, pp. 396-404, 2018
Jeremia, “Plastic packaging material value conservation and evident of the consumers acceptance”, Key Engineering Materials, vol. 773, pp. 390-395, 2018
Gabriel, “How to increase plastic waste acceptance for mechanical recycling: An introduction to material value conservation and its phenomenon,” Key Engineering Materials, vol. 705, pp. 362- 367, 2016
Maulana, “Impact of plastic labelling, coloring and printing on material value conservation in the products of secondary recycling,” Key Engineering Materials, vol. 773, pp. 384- 389, 2018
Hapsari, “Plastic packaging material value conservation and the structure of stakeholder role”, Key Engineering Materials, vol. 773, pp. 396-404, 2018
Jeremia, “Plastic packaging material value conservation and evident of the consumers acceptance”, Key Engineering Materials, vol. 773, pp. 390-395, 2018