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Online since: April 2014
Authors: Yuan Zhi Zhu, C.Q. Zhao, J.C. Li, B.L. Li
[2] Zhang J, Pan F, Zuo R, et al, Journal of Materials Processing Technology, 2008, 206(1): 382-387
[3] Roy R K, Das S, Journal of materials science, 2006, 41(1): 289-292
[4] Keles O, Dundar M, Journal of Materials Processing Technology, 2007, 186(1): 125-137
[7] Yun M, Lokyer S, Hunt J D, Materials Science and Engineering: A, 2000, 280(1): 116-123
[13] Shabestari S G, Materials Science and Engineering: A, 2004, 383(2): 289-298
[3] Roy R K, Das S, Journal of materials science, 2006, 41(1): 289-292
[4] Keles O, Dundar M, Journal of Materials Processing Technology, 2007, 186(1): 125-137
[7] Yun M, Lokyer S, Hunt J D, Materials Science and Engineering: A, 2000, 280(1): 116-123
[13] Shabestari S G, Materials Science and Engineering: A, 2004, 383(2): 289-298
Online since: March 2015
Authors: Bo Tao Wang
The raw materials for AC preparation are mainly divided into wood and coal materials.
Wood raw materials are mainly composed of husk, crop straw and other biomass, while the coal raw materials are mainly composed of lignite, anthracite, petroleum coke and pitch coke [4-7].
Experiments Raw Materials.
Xie, Preparation and modification of activated carbon for benzene adsorption by steam activation in the presence of KOH, International Journal of Mining Science and Technology. 3(2013) 395-402
Zhou, Surface properties of activated carbon from different raw materials, International Journal of Mining Science and Technology. 4(2012) 483-486
Wood raw materials are mainly composed of husk, crop straw and other biomass, while the coal raw materials are mainly composed of lignite, anthracite, petroleum coke and pitch coke [4-7].
Experiments Raw Materials.
Xie, Preparation and modification of activated carbon for benzene adsorption by steam activation in the presence of KOH, International Journal of Mining Science and Technology. 3(2013) 395-402
Zhou, Surface properties of activated carbon from different raw materials, International Journal of Mining Science and Technology. 4(2012) 483-486
Online since: April 2014
Authors: Zi Ming Yang, Pu Wang Li, Zheng Peng, Xiao Chuan Gu, Ling Xue Kong, Si Dong Li
All results suggested that modified shell powder is promising for using as a reinforcement filler in polymer materials.
1.
Wu: Journal of Bionic Engineering Vol. 7(2010), p.307
Li : Journal of Structural Biology Vol. 184 (2013), p.409
Materials Characterization, Vol. 76,(2013), p. 55
Wang:Materials & Design Vol.31(2010), P. 1711.
Wu: Journal of Bionic Engineering Vol. 7(2010), p.307
Li : Journal of Structural Biology Vol. 184 (2013), p.409
Materials Characterization, Vol. 76,(2013), p. 55
Wang:Materials & Design Vol.31(2010), P. 1711.
Online since: January 2016
Authors: Jakrapong Kaewkhao, Keerati Kirdsiri, Benchaphorn Damdee
Kaewkhao1,2
1Physics Program, Faculty of Science and Technology, Nakhon Pathom Rajabhat University, Meuang, Nakhon Pathom, 73000, Thailand
2Center of Excellence in Glass Technology and Materials Science (CEGM), Nakhon Pathom Rajabhat University,Nakhon Pathom, 73000, Thailand
*Email: thangtt8@gmail.com
Keywords: Borate Glass; Photoluminescence; Europium
Abstract.
Such as laser materials, sensors, amplifiers for fiber optical communications active and inactive components in optical and photonic devices [4-7].
This results may potential to develop red emission display and photonic materials.
Rai, Optical Materials 45 (2015) 202
[7] Vengala Rao Bandi, Bhaskar Kumar Grandhe, Kiwan Jang, e t al., Materials Chemistry and Physics 140 (2013) 453
Such as laser materials, sensors, amplifiers for fiber optical communications active and inactive components in optical and photonic devices [4-7].
This results may potential to develop red emission display and photonic materials.
Rai, Optical Materials 45 (2015) 202
[7] Vengala Rao Bandi, Bhaskar Kumar Grandhe, Kiwan Jang, e t al., Materials Chemistry and Physics 140 (2013) 453
Online since: July 2014
Authors: Xiao Jing Yang, Han Qing Gu
Metallic Materials-Instrumented Indentation Test for Hardness and Materials Parameters.
Improved technique for determining hardness and elastic modulus using load and displacement sensing indentation experiments, Journal of Materials Research, 7(6)( 1992): 1564-1580
Applied Mechanics and Materials, 36(6)( 2004):680-687
Analysis of tip effects in nanoindentation ,Journal of University of Science and Technology of China, 39(4) (2009):403-408
Chinese Journal of Materials Research,23(2)(2009):180-186.
Improved technique for determining hardness and elastic modulus using load and displacement sensing indentation experiments, Journal of Materials Research, 7(6)( 1992): 1564-1580
Applied Mechanics and Materials, 36(6)( 2004):680-687
Analysis of tip effects in nanoindentation ,Journal of University of Science and Technology of China, 39(4) (2009):403-408
Chinese Journal of Materials Research,23(2)(2009):180-186.
Online since: August 2014
Authors: Yi Xuan Qiu, Chang Cheng Chen
However, they did not further discuss the deformation behavior of materials.
Iwazaki, Superplastic backward microextrusion of microparts formicro-electro- mechanical systems, Journal of Materials Processing Technology, 119, pp.307-311, 2001
Hausselt, “Development of a micro annular gear pump by micro powder injection molding”, Journal of Materials Processing Technology, Germany, vol.39, pp.2113-2119, 2004
Chang, Superplastic micro-forming with a fine grained Zn–22Al eutectoid alloy using hot embossing technology, Journal of Materials Processing Technology, 180, pp.17-22, 2006
Inoue, Wear resistivity of super-precision microgear made of Ni-based metallic glass, Materials Science & Engineering, A 449-451, pp.149-154, 2007
Iwazaki, Superplastic backward microextrusion of microparts formicro-electro- mechanical systems, Journal of Materials Processing Technology, 119, pp.307-311, 2001
Hausselt, “Development of a micro annular gear pump by micro powder injection molding”, Journal of Materials Processing Technology, Germany, vol.39, pp.2113-2119, 2004
Chang, Superplastic micro-forming with a fine grained Zn–22Al eutectoid alloy using hot embossing technology, Journal of Materials Processing Technology, 180, pp.17-22, 2006
Inoue, Wear resistivity of super-precision microgear made of Ni-based metallic glass, Materials Science & Engineering, A 449-451, pp.149-154, 2007
Online since: October 2007
Authors: Jenq Gong Duh, Ting Fang, Li Yin Hsiao
Novel Composite Anode Containing Tin Compounds and Carbonaceous
Materials for Li-ion Batteries
Ting Fang
1, a, Li-Yin Hsiao
1,b and Jenq-Gong Duh1,c
1
No. 101, Sec. 2, Kuan Fu Rd., Department of Materials Science and Engineering, National Tsing
Hua University, Hsinchu 300, Taiwan, China
a
d927533@oz.nthu.edu.tw, bd927502@oz.nthu.edu.tw, cjgd@mx.nthu.edu.tw
Keywords: Sn, mesophase graphite powders, composite anode, capacity retention, cycleability
Abstract.
To develop anode materials with higher specific capacity, tin-based compounds have been extensively investigated in the past years.
These novel anodes exhibit superior initial capacity than carbonaceous materials and better capacity retention than metallic tin.
In this study, the electroless plating method will be adopted to prepare the Sn compounds/MGP composite anode materials.
According to the charge profiles, the fading mechanism of lithium in the two composite materials was proposed.
To develop anode materials with higher specific capacity, tin-based compounds have been extensively investigated in the past years.
These novel anodes exhibit superior initial capacity than carbonaceous materials and better capacity retention than metallic tin.
In this study, the electroless plating method will be adopted to prepare the Sn compounds/MGP composite anode materials.
According to the charge profiles, the fading mechanism of lithium in the two composite materials was proposed.
Analysis on the Action of Oxidant in Chemical Mechanical Polishing of 304 Ultra-Thin Stainless Steel
Online since: March 2017
Authors: Zhan Kui Wang, Jian Xiu Su, Su Fang Fu, Yan An Peng, Zhen Hui Liu
Now, it has been used in IC manufacturing and ultra precision machining of hard and brittle materials.
Acknowledgements The authors acknowledge the financial support of the National Natural Science Foundation of China (No.51375149).
References [1] Logothetidis S., Laskarakis A.: ‘Towards the optimization of materials and processes for flexible organic electronics devices’, The European Physical Journal Applied Physics, 2009, 46 (1): 12502 (1-9)
[6] Someya T.: ‘Flexible electronics: Tiny lamps to illuminate the body’, Nature Materials, 2010,9(11):879-880
Ke-na, et al.: ‘Study on Decomposition Rate and Stability of Hydrogen Peroxide’, Journal of Jiaxing University,2010,22(3):51-53
Acknowledgements The authors acknowledge the financial support of the National Natural Science Foundation of China (No.51375149).
References [1] Logothetidis S., Laskarakis A.: ‘Towards the optimization of materials and processes for flexible organic electronics devices’, The European Physical Journal Applied Physics, 2009, 46 (1): 12502 (1-9)
[6] Someya T.: ‘Flexible electronics: Tiny lamps to illuminate the body’, Nature Materials, 2010,9(11):879-880
Ke-na, et al.: ‘Study on Decomposition Rate and Stability of Hydrogen Peroxide’, Journal of Jiaxing University,2010,22(3):51-53
Online since: November 2013
Authors: Ivona Černičková, Pavol Priputen, Jozef Janovec
Priputenc
Slovak University of Technology in Bratislava, Faculty of Materials Science and Technology in Trnava, Paulínska 16, 917 24 Trnava, Slovak Republic
ajozef.janovec@stuba.sk, bivona.cernickova@stuba.sk, cpavol.priputen@stuba.sk
Keywords: complex metallic alloy; structurally complex phase; scanning electron microscopy; transmission electron microscopy; energy-dispersive X-ray spectroscopy; high-angle annular dark-field imaging; X-ray diffraction; differential thermal analysis.
Fig. 4 HAADF image showing coexistence of phases ε6, ε16, and ε28 in non-equilibrium Al73.8Pd11.9Co14.3 alloy Acknowledgements The authors wish to thank to the European Regional Development Fund (ERDF) for financial support of the projects ITMS:26220120014 and ITMS:26220120048 “Center for development and application of advanced diagnostic methods in processing of metallic and non-metallic materials” funded within the Research & Development Operational Programme, to the Slovak Academy of Sciences for the support in the frame of the “Center of Excellence for functional multiphase materials“ (FUN-MAT), to the Slovak Research and Development Agency (APVV) for the financial support under the contract APVV-0076-11, as well as to the Grant Agency of the Ministry of Education, Science, Research, and Sport of the Slovak Republic and the Slovak Academy of Sciences (VEGA) for the financial support under the contract 1/0143/12.
Kim: Materials Science and Engineering Vol. 294 (2000), p. 99 [6] S.
McHenry, Structure of materials: An introduction to crystalography, diffraction, and symmetry, Cambridge University Press, New York (2008)
Grushko: Materials Science and Engineering Vol.
Fig. 4 HAADF image showing coexistence of phases ε6, ε16, and ε28 in non-equilibrium Al73.8Pd11.9Co14.3 alloy Acknowledgements The authors wish to thank to the European Regional Development Fund (ERDF) for financial support of the projects ITMS:26220120014 and ITMS:26220120048 “Center for development and application of advanced diagnostic methods in processing of metallic and non-metallic materials” funded within the Research & Development Operational Programme, to the Slovak Academy of Sciences for the support in the frame of the “Center of Excellence for functional multiphase materials“ (FUN-MAT), to the Slovak Research and Development Agency (APVV) for the financial support under the contract APVV-0076-11, as well as to the Grant Agency of the Ministry of Education, Science, Research, and Sport of the Slovak Republic and the Slovak Academy of Sciences (VEGA) for the financial support under the contract 1/0143/12.
Kim: Materials Science and Engineering Vol. 294 (2000), p. 99 [6] S.
McHenry, Structure of materials: An introduction to crystalography, diffraction, and symmetry, Cambridge University Press, New York (2008)
Grushko: Materials Science and Engineering Vol.
Online since: August 2015
Authors: Rosari Saleh, Nadia Febiana Djaja
Dutta, Photocatalytic degradation of organic dyes with manganese-doped ZnO nanoparticles, Journal of Hazardous Materials 156 (2008)194-200
Yao, Preparation and visible light photocatalytic activity of Zn1− x FexO nanocrystalline, Materials Chemistry and Physics 130 (2011) 5-9
Saleh, Characteristics and Photocatalytics Activities of Ce-Doped ZnO Nanoparticles, Materials Sciences and Applications 4 (2013) 145-152
Hameed, Parameters affecting the photocatalytic degradation of dyes using TiO2-based photocatalysts: A review, Journal of Hazardous Materials 170 (2009) 520–529
Ismail, Zeolite Y Encapsulated with Fe-TiO2 for Ultrasound-Assisted Degradation of Amaranth Dye in Water, Journal of Hazardous Materials 233 – 234 (2012) 184 – 193
Yao, Preparation and visible light photocatalytic activity of Zn1− x FexO nanocrystalline, Materials Chemistry and Physics 130 (2011) 5-9
Saleh, Characteristics and Photocatalytics Activities of Ce-Doped ZnO Nanoparticles, Materials Sciences and Applications 4 (2013) 145-152
Hameed, Parameters affecting the photocatalytic degradation of dyes using TiO2-based photocatalysts: A review, Journal of Hazardous Materials 170 (2009) 520–529
Ismail, Zeolite Y Encapsulated with Fe-TiO2 for Ultrasound-Assisted Degradation of Amaranth Dye in Water, Journal of Hazardous Materials 233 – 234 (2012) 184 – 193