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Online since: September 2013
Authors: Chien Chon Chen, Wern Dare Jheng, Ker Jer Huang, Jin Shyong Lin
The high quality and functional green building materials can therefore be easily fabricated.
Introduction Green building materials are composed of renewable, rather than nonrenewable resources.
Those materials such alumina (Al2O3) and titania (TiO2) there are candidate materials of energy and green building materials.
The inorganic materials of alumina titania (TiO2) are basic materials used in the modern building for example, harder Al2O3 tile and photocatalyst of TiO2 film.
Diau, Journal of The Electrochemical Society, Vol. 156 (2009), p.
Introduction Green building materials are composed of renewable, rather than nonrenewable resources.
Those materials such alumina (Al2O3) and titania (TiO2) there are candidate materials of energy and green building materials.
The inorganic materials of alumina titania (TiO2) are basic materials used in the modern building for example, harder Al2O3 tile and photocatalyst of TiO2 film.
Diau, Journal of The Electrochemical Society, Vol. 156 (2009), p.
Online since: April 2015
Authors: G. Senthil Kumaran, John K. Makunza
Journal of Materials and Structure, 29-43
Journal of Materials and Structure, Volume 23, (134), 81-102
Journal of Archeological Science, VOL 37, 2346-2355
Journal of Materials and Structure, Volume 38, (134)., 771-780
Journal of Construction and Building Materials., 4338-4350
Journal of Materials and Structure, Volume 23, (134), 81-102
Journal of Archeological Science, VOL 37, 2346-2355
Journal of Materials and Structure, Volume 38, (134)., 771-780
Journal of Construction and Building Materials., 4338-4350
Online since: August 2013
Authors: San Yuan Zhang, Hui Chao Xia
Materials and Methods
The target users are the 18-28 years old university students or the recent graduates in the east of China.
Some other social science research fields can also use the similar research methods.
Trends in Cognitive Sciences.
Journal of Computer-Aided Design & Computer Graphics.
Chinese Journal of Mechanical Engineering.
Some other social science research fields can also use the similar research methods.
Trends in Cognitive Sciences.
Journal of Computer-Aided Design & Computer Graphics.
Chinese Journal of Mechanical Engineering.
Online since: June 2010
Authors: Chun Wei Li, Xue Song Jiang, Qun Li Zhang, Shu Yan Xu, Gui Ying Wang
Influence barrier property of thin
film packaging materials are the main factors.
[6]BERG S,BLOM H O,LARSSON T,et al.Modeling of Reactive Sputtering of Compound Materials[J].Journal of Vacuum Seience&Technology A,1987,5(2):202-207
[10]WAN Jianqing.Developing Trends of SiOx Packaging Materials[J].Plastics Packaging,2002, 12(2):20-23
[16]POBERTS A P,HENRY B M,SUTTON A P,et al.Gas Permeation in Silicon-Oxide/Polymer(SiOx/PET) Barrier Films:Role of the Oxide Lattice Nano-defects and Macro-defects[J].Journal of Membrane Science,2002,208(1-2):75-88
[18]INOUE Shozo,TOMINAGA Kikuo,HOWSON Ronald P,et al.Effects of Nitrogen Pressure and Ion Flux on the Properties of Direct Current Reactive Magnetron Sputtered Zr-N Films[J].Journal of Vacuum Science and Technology A,1995,13(6):2808-2813
[6]BERG S,BLOM H O,LARSSON T,et al.Modeling of Reactive Sputtering of Compound Materials[J].Journal of Vacuum Seience&Technology A,1987,5(2):202-207
[10]WAN Jianqing.Developing Trends of SiOx Packaging Materials[J].Plastics Packaging,2002, 12(2):20-23
[16]POBERTS A P,HENRY B M,SUTTON A P,et al.Gas Permeation in Silicon-Oxide/Polymer(SiOx/PET) Barrier Films:Role of the Oxide Lattice Nano-defects and Macro-defects[J].Journal of Membrane Science,2002,208(1-2):75-88
[18]INOUE Shozo,TOMINAGA Kikuo,HOWSON Ronald P,et al.Effects of Nitrogen Pressure and Ion Flux on the Properties of Direct Current Reactive Magnetron Sputtered Zr-N Films[J].Journal of Vacuum Science and Technology A,1995,13(6):2808-2813
Online since: April 2014
Authors: Ai Ping Tao, Jing Cai Chang, Ming Feng Gao, Chun Yan Xu, Chun Yuan Ma
It is well known that imbibitions of fibrous materials are of practical importance in many industrial processes [7-10].
Jodeit: Journal of Aerosol Science, Vol. 18(6) (1987), P.869
[8]J.Szekely, A.W.Neumann, Y.K.Chuang: Journal of Colloid and Interface Science, Vol.35(2) (1971), P.273
Bruque: Journal of Colloid and Interface Science, Vol.26 (2003), P.171
[10]Lu Zijuan, Zhang Zuoguang, Li Min, Sun Zhijie: Aerospace Materials & Technology, Vol.3 (2006), P.36.
Jodeit: Journal of Aerosol Science, Vol. 18(6) (1987), P.869
[8]J.Szekely, A.W.Neumann, Y.K.Chuang: Journal of Colloid and Interface Science, Vol.35(2) (1971), P.273
Bruque: Journal of Colloid and Interface Science, Vol.26 (2003), P.171
[10]Lu Zijuan, Zhang Zuoguang, Li Min, Sun Zhijie: Aerospace Materials & Technology, Vol.3 (2006), P.36.
Online since: August 2013
Authors: Ling Zhang, Fan Liu
[6] QIAO J S,HUANG Y N,XIAO X et al.Microstructural evolution of CLAM steel upon high energy electron irradiation at 450 [J] .Journal of University of Science and Technology Beijing, 2009, 31(7): 842-847
Journal of Nuclear Materials, 1999, 271/272: 145
Journal of Nuclear Materials, 2003, 318:267
[11] LI Q,HUANG Q Y,YU J N et al.Surface analysis of CLAM steel,EUROFER97 steel and W irradiated in HT-7 Tokamak [J] .Chinese Journal of Nuclear Science and Engineering,2004, 24 (1): 157
[13] ZHAO F,WAN K B,QIAO J S et al.The microstructure and mechanical properties of China low activation martensitic steel [J] .Chinese Journal of Nuclear Science and Engineering, 2007, 27(1):59-63
Journal of Nuclear Materials, 1999, 271/272: 145
Journal of Nuclear Materials, 2003, 318:267
[11] LI Q,HUANG Q Y,YU J N et al.Surface analysis of CLAM steel,EUROFER97 steel and W irradiated in HT-7 Tokamak [J] .Chinese Journal of Nuclear Science and Engineering,2004, 24 (1): 157
[13] ZHAO F,WAN K B,QIAO J S et al.The microstructure and mechanical properties of China low activation martensitic steel [J] .Chinese Journal of Nuclear Science and Engineering, 2007, 27(1):59-63
Online since: June 2021
Authors: Abdelyamine Boukhobza, Kamel Fedaoui, Mohammed Said Boutaani, Amor Bourebbou, Laid Chaibainou
Hashin, The elastic moduli of heterogeneous materials, Journal of Applied Mechanics. 29, 1962, 143-150
International Journal of Engineering Science. 31, 1993, 1–10
International Journal of Engineering Science. 33 (10), 1995, 1419–1433
Mechanics of Materials. 83, 2015, 1-16
Computational Materials Science [23] J.
International Journal of Engineering Science. 31, 1993, 1–10
International Journal of Engineering Science. 33 (10), 1995, 1419–1433
Mechanics of Materials. 83, 2015, 1-16
Computational Materials Science [23] J.
Online since: January 2012
Authors: Franco Maria Montevecchi, Marco A. Deriu, Tamara C. Bidone, Giuseppe Falvo D’urso Labate, Diana Massai, Umberto Morbiducci
Recent research on biological materials and bioartificial systems has created one of the most dynamic field at the confluence of physical sciences, molecular engineering, cell biology, materials sciences, biotechnology and (nano)medicine.
Such materials could be used as biomaterials for clinical applications, or as novel efficient energy-absorbing materials.
Coupling strategies of modeling biological, artificial and bioartificial systems at different length and time scales is of great importance in quite diverse fields of science and technology, including medicine, biology, biotechnology, tissue engineering and materials sciences.
Journal of Material Science, 2007. 42(21): p. 8864-8872
Nature Materials, 2009. 8(3): p. 175-188
Such materials could be used as biomaterials for clinical applications, or as novel efficient energy-absorbing materials.
Coupling strategies of modeling biological, artificial and bioartificial systems at different length and time scales is of great importance in quite diverse fields of science and technology, including medicine, biology, biotechnology, tissue engineering and materials sciences.
Journal of Material Science, 2007. 42(21): p. 8864-8872
Nature Materials, 2009. 8(3): p. 175-188
Online since: May 2013
Authors: Ning Zhang, Hong Min Kan, Fei Yi Yang, Miao Sun, Xiao Yang Wang, Ting Ting Fu
Wang, X.D.Li, H.Wang and Y.Shang: Chinese Journal of Materials Research Vol. 22(2008),p.292-294(In Chinese)
[3]E.
Zhou: Materials Science & Technology Vol. 14(2006),p.301(In Chinese) [7]P.
Zhou: Materials China Vol. 30(2011),p.6(In Chinese) [21]Z.
Jia: Materials Science and Engineering A Vol. 489(2008),p.187-192(In Chinese) [22]Z.
Zhou: Material Science and Engineering A Vol. 528(2011),p.1944-1948(In Chinese) [23]R.
Zhou: Materials Science & Technology Vol. 14(2006),p.301(In Chinese) [7]P.
Zhou: Materials China Vol. 30(2011),p.6(In Chinese) [21]Z.
Jia: Materials Science and Engineering A Vol. 489(2008),p.187-192(In Chinese) [22]Z.
Zhou: Material Science and Engineering A Vol. 528(2011),p.1944-1948(In Chinese) [23]R.
Online since: July 2020
Authors: Zheng Qiao, Jing Zhang, Gupta Dharmender Kumar, Li Ming Fang
Biomedical materials is the newest branch of biomedical science[1-3].
It is a frontier subject formed by the intersection of biology, medicine, chemistry, physics and materials science.
Femtosecond Laser Processing of Polymer Materials The advantages of macromolecular materials in cost, mechanical properties, functional pertinence and technological complexity make it gradually replace some inorganic materials or metals, thus a variety of macromolecular materials based devices have appeared.
Optical Materials, 2017, 73:25-32
Journal of Materials Processing Technology, 2016, 241:120-128
It is a frontier subject formed by the intersection of biology, medicine, chemistry, physics and materials science.
Femtosecond Laser Processing of Polymer Materials The advantages of macromolecular materials in cost, mechanical properties, functional pertinence and technological complexity make it gradually replace some inorganic materials or metals, thus a variety of macromolecular materials based devices have appeared.
Optical Materials, 2017, 73:25-32
Journal of Materials Processing Technology, 2016, 241:120-128