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Online since: February 2012
Authors: Zi Tian Fan, Xuan Pu Dong, Hang Chen, Xiao Qing Xiong, Rong Ma, Shu Qun Chen
Higashi: Materials Science Forum Vol. 419-222 (2003)
[3] Z.Y.
Ding, Materials Science and Engineering A Vol. 392, (2005), p. 150 [4] S.B.
Shu: Materials Science and Engineering A, Vol. 515 (2009), p. 152 [10] G.H.
Mitchell: An introduction to Materials Engineering and Science: for Chemical and Materials Engineers (Jone Wiley & Sons, Inc., USA, 2004) [13] Q.M.
Pan: Materials Science and Engineering A Vol 528 (2011), p. 5914 [16] R.
Ding, Materials Science and Engineering A Vol. 392, (2005), p. 150 [4] S.B.
Shu: Materials Science and Engineering A, Vol. 515 (2009), p. 152 [10] G.H.
Mitchell: An introduction to Materials Engineering and Science: for Chemical and Materials Engineers (Jone Wiley & Sons, Inc., USA, 2004) [13] Q.M.
Pan: Materials Science and Engineering A Vol 528 (2011), p. 5914 [16] R.
Online since: September 2013
Authors: Jun Ding
Preparation of TiO2 Photocatalysis Antibacterial Ceramics
Jun, Ding
Harbin University of Science and Technology,China
2109435@163.com
Keywords: antibacterial ceramics, titanium dioxide, photocatalysis
Abstract: Among various inorganic antibacterial materials, TiO2 photocatalysis antibacterial materials possess unique properties including long lifespan, nontoxicity, high temperature resistance as well as high physical and chemical stability.
Antibacterial ceramics, as environmentally-friendly functional materials, are prepared by adding inorganic antibacterial agents into ceramic glaze.
Preparation of TiO2 photocatalysis antibacterial materials 1.1 Raw materials: butyl titanate (AR), absolute ethyl alcohol (AR), trolamine (CP), deionized water. 1.2 Equipments: thermostatic magnetic stirrer, rotational viscometer, constant temperature and humidity dry oven, chamber electric furnace, whiteness meter gloss meter, biological microscope. 2.
Summary Titanium ores are very abundant in China, thus the rich titanium reserves provide cheap raw materials for various applications.
Jimei, Nanomaterial and Nanostructure, Science Press, Beijing, 2001, 2:135 [2] Fan.
Antibacterial ceramics, as environmentally-friendly functional materials, are prepared by adding inorganic antibacterial agents into ceramic glaze.
Preparation of TiO2 photocatalysis antibacterial materials 1.1 Raw materials: butyl titanate (AR), absolute ethyl alcohol (AR), trolamine (CP), deionized water. 1.2 Equipments: thermostatic magnetic stirrer, rotational viscometer, constant temperature and humidity dry oven, chamber electric furnace, whiteness meter gloss meter, biological microscope. 2.
Summary Titanium ores are very abundant in China, thus the rich titanium reserves provide cheap raw materials for various applications.
Jimei, Nanomaterial and Nanostructure, Science Press, Beijing, 2001, 2:135 [2] Fan.
Online since: November 2015
Authors: Zai Sheng Cai, Bi Xu, Yin Yan Ding, Feng Yan Ge
Experimental
Materials.
Progress in Materials Science, 2011. 56: p. 1-108
Journal of Materials Chemistry, 2007. 17: p. 3504-3508
Advanced Materials, 2008. 20: p. 65-68
Journal of Materials Chemistry A, 2014. 2: p. 18005-18011
Progress in Materials Science, 2011. 56: p. 1-108
Journal of Materials Chemistry, 2007. 17: p. 3504-3508
Advanced Materials, 2008. 20: p. 65-68
Journal of Materials Chemistry A, 2014. 2: p. 18005-18011
Online since: February 2023
Authors: Faruk Elaldi, Pelin Alabay
The toughened materials will have higher design allowable strains as compared with the conventional materials, hence the structural weight could be reduced and resulted in more economical benefits.
Experimental Materials.
Engineering Science and Technology, an International Journal, 21(3) (2018) 399-407.
Journal of Composite Materials, 45(7) (2011) 803-814.
Canadian International Conference on Composite Materials, 2017.
Experimental Materials.
Engineering Science and Technology, an International Journal, 21(3) (2018) 399-407.
Journal of Composite Materials, 45(7) (2011) 803-814.
Canadian International Conference on Composite Materials, 2017.
Online since: July 2015
Authors: Azmi Aris, Hazilia Hussain, Qistina Omar, Norlaily Ahmad, Nurul Shairah Ahmad Shahrifun, Norul Nazilah Ab’lah
This is supported by [17] where the researcher claimed that the repeated use of iron-containing sludge results in decreasing zeta potential as well as accumulation of organic materials embedded in the sludge and is indicated by increasing volatile suspended solid (VSS)/TSS ratio.
Chemical Engineering Journal, 164, (2010) 255-260
Neyens, Fenton peroxidation improves the drying performance of waste activated sludge, Journal of Hazardous Materials, 117, (2005) 161-170
Journal of Environmental Science and Health, Part A Vol. 36 (1) (2001)
Baeyens, A review of classic Fenton’s peroxidation as an advanced oxidation technique, Journal of Hazardous Materials 98 (2003) 33-50
Chemical Engineering Journal, 164, (2010) 255-260
Neyens, Fenton peroxidation improves the drying performance of waste activated sludge, Journal of Hazardous Materials, 117, (2005) 161-170
Journal of Environmental Science and Health, Part A Vol. 36 (1) (2001)
Baeyens, A review of classic Fenton’s peroxidation as an advanced oxidation technique, Journal of Hazardous Materials 98 (2003) 33-50
Online since: October 2004
Authors: Dierk Raabe, N. Chen
It is an isotropic rather than a anisotropic contribution to Journal Title and Volume Number (to be inserted by the publisher) 5
the yield locus.
G'Sell (eds.), Plastic Deformation of Amorphous and SemiCrystalline Materials, Les Editions de Physique, Les Ulis, 1982, page 291 [8] Lotz B. & Wittmann J.
Thomas, Vol. 12 of Materials Science and Technology, ed.
Thomas, Vol. 12 of Materials Science and Technology, ed. by R.
Kramer, Chapter 10, page 427 [10] Crist, B., Semicrystalline Polymers: Plastic Deformation, in: Encyclopedia of Materials: Science and Technology, Volume 9, K.
G'Sell (eds.), Plastic Deformation of Amorphous and SemiCrystalline Materials, Les Editions de Physique, Les Ulis, 1982, page 291 [8] Lotz B. & Wittmann J.
Thomas, Vol. 12 of Materials Science and Technology, ed.
Thomas, Vol. 12 of Materials Science and Technology, ed. by R.
Kramer, Chapter 10, page 427 [10] Crist, B., Semicrystalline Polymers: Plastic Deformation, in: Encyclopedia of Materials: Science and Technology, Volume 9, K.
Online since: July 2011
Authors: Bin Li, Ji Man Luo, Chun Xia Zhu
Material Poisson's ratio is 0.3.
Material density is 7800.
Influence of Linear Rolling Guide Joint on Dynamic Behavior of NC Machine Tools[J], Journal of Northeastern University (Natural Science) vol.27,n.12,2006, pp.1369-1372
The Fourth Wroclaw Symposium AP 2003 "Science - Knowledge – Innovation”, vol.41,n.1,2003, pp.345-52
Ozay, “Analysis of the surface roughness of tangential turn-milling for machining with end milling cutter,” Journal of Materials Processing Technology, vol.186,2007, pp.279-283
Material density is 7800.
Influence of Linear Rolling Guide Joint on Dynamic Behavior of NC Machine Tools[J], Journal of Northeastern University (Natural Science) vol.27,n.12,2006, pp.1369-1372
The Fourth Wroclaw Symposium AP 2003 "Science - Knowledge – Innovation”, vol.41,n.1,2003, pp.345-52
Ozay, “Analysis of the surface roughness of tangential turn-milling for machining with end milling cutter,” Journal of Materials Processing Technology, vol.186,2007, pp.279-283
Online since: January 2011
Authors: Wan Shan Wang, Li Da Zhu, Jian Yu Yang, Tian Biao Yu
Material Poisson's ratio is 0.3.
Material density is 7800.
The Fourth Wroclaw Symposium AP 2003 "Science - Knowledge – Innovation”, Vol. 41(2003),no.1, , pp. 345-52
[4] Liu Yang, Li Jing-Kui, Zhu Chun-Xia: Journal of Northeastern University (Natural Science) Vol. 27(2006),no.12, pp. 1369-1372
Ozay: Journal of Materials Processing Technology, Vol.186,2007, pp. 279-283
Material density is 7800.
The Fourth Wroclaw Symposium AP 2003 "Science - Knowledge – Innovation”, Vol. 41(2003),no.1, , pp. 345-52
[4] Liu Yang, Li Jing-Kui, Zhu Chun-Xia: Journal of Northeastern University (Natural Science) Vol. 27(2006),no.12, pp. 1369-1372
Ozay: Journal of Materials Processing Technology, Vol.186,2007, pp. 279-283
Online since: April 2012
Authors: John Wheeler, M.R. Drury, E. Mariani, S. Piazolo, D.J. Prior, P.J. Trimby, D. McNamara, M.A. Pearce
Introduction
In all aspects of EBSD applications in metallurgy, materials and Earth Science, much attention focuses on improvements in hardware, acquisition speed and precision.
This is very common in deformed materials, but what controls the angular scale and form of those graphs?
Schuh, in: Electron Backscatter Diffraction in Materials Science, A.J.
Balluffi, Interfaces in crystalline materials, 819 pp., Clarendon Press, Oxford, 1995
Nowell, in: Electron Backscatter Diffraction in Materials Science, A.J.
This is very common in deformed materials, but what controls the angular scale and form of those graphs?
Schuh, in: Electron Backscatter Diffraction in Materials Science, A.J.
Balluffi, Interfaces in crystalline materials, 819 pp., Clarendon Press, Oxford, 1995
Nowell, in: Electron Backscatter Diffraction in Materials Science, A.J.