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Online since: September 2011
Authors: K. Ramachandran, P. Kalyanasundaram, C. Sanjeeviraja, K. Jeyadheepan, P. Palanichamy, M. Sivabharathy
Journal of Nuclear Materials, 255 (1998) 243
Feith, High-Temperature Materials Program: Property Measurements, USAEC Report GEMP-61. 153 (1966)
Cleveland (ed.), Thermophysical Properties of Materials for Water Cooled Reactors, International Atomic Energy Agency Report IAEA-TECDOC-949. 77 (1997)
Sanjeeviraja, Applied Physics A: Materials Science and Processing, 98 (2010) 919
Cook, Metallurgical And Materials Transactions A, 30a (1988) 1999.
Feith, High-Temperature Materials Program: Property Measurements, USAEC Report GEMP-61. 153 (1966)
Cleveland (ed.), Thermophysical Properties of Materials for Water Cooled Reactors, International Atomic Energy Agency Report IAEA-TECDOC-949. 77 (1997)
Sanjeeviraja, Applied Physics A: Materials Science and Processing, 98 (2010) 919
Cook, Metallurgical And Materials Transactions A, 30a (1988) 1999.
Online since: April 2015
Authors: Dody Ariawan, Muhamad Saifuddin Salim, Z.A. Mohd Ishak, Mohd Zharif Ahmad Thirmizir
Introduction
The utilization of natural fibres as reinforcements in composite materials has shown increase in usage significantly over the last few years.
Experimental Materials.
Liu, et al., "Effects of alkali treatment on the structure, morphology and thermal properties of native grass fibers as reinforcements for polymer matrix composites," Journal of Materials Science, vol. 39, pp. 1051-1054, 2004
Edeerozey, et al., "Chemical modification of kenaf fibers," Materials Letters, vol. 61, pp. 2023-2025, 2007
Ansell, "Chemical modification of hemp, sisal, jute, and kapok fibers by alkalization," Journal of Applied Polymer Science, vol. 84, pp. 2222-2234, 2002
Experimental Materials.
Liu, et al., "Effects of alkali treatment on the structure, morphology and thermal properties of native grass fibers as reinforcements for polymer matrix composites," Journal of Materials Science, vol. 39, pp. 1051-1054, 2004
Edeerozey, et al., "Chemical modification of kenaf fibers," Materials Letters, vol. 61, pp. 2023-2025, 2007
Ansell, "Chemical modification of hemp, sisal, jute, and kapok fibers by alkalization," Journal of Applied Polymer Science, vol. 84, pp. 2222-2234, 2002
Online since: December 2018
Authors: Toshio Haga, Shinichi Nishida, Kentaro Okamura, Hisaki Warari
Haga, Casting of Clad Strip by a Twin Roll Caster, Materials Science Forum, 794-796(2014)772-777
Watari, Roll casting of clad strip, Materials Science Forum, 706-709(2012)1152-1157
Watari, S.Kumai, Casting of aluminum alloy clad strip using a roll caster, Journal of Solid mechanics and materials engineering, 5(2011)1029-1041
Watari, Casting of clad strip by a roll caster, Materials Science Forum, 675-677(2011) 807-810
Watari, Clad strip casting by a twin roll caster, Archives of Materials Science and Engineering, 37(2009)117-124
Watari, Roll casting of clad strip, Materials Science Forum, 706-709(2012)1152-1157
Watari, S.Kumai, Casting of aluminum alloy clad strip using a roll caster, Journal of Solid mechanics and materials engineering, 5(2011)1029-1041
Watari, Casting of clad strip by a roll caster, Materials Science Forum, 675-677(2011) 807-810
Watari, Clad strip casting by a twin roll caster, Archives of Materials Science and Engineering, 37(2009)117-124
Online since: January 2019
Authors: Chen Zhipeng, De Lin Chu, Wei Hua Wang, Wen Jing Pu, Hai Yan Jiang, Shu Bing Ma, Hai Fei Deng, Jun Li Qi, Zi Hao Pan, Wei Lu
Based on the design of solid blanket and tritium extraction process, breeder materials need to be made into a certain shape of pebbles.
Li2TiO3 becomes one of our preferred materials due to its stable chemical properties and high mechanical strength [7-10].
Li2CO3 and TiO2 are the raw materials for Li2TiO3 synthesis based on solid phase method. .
Kong, Research progress on fabrication of Li2TiO3 solid tritium breeder materials.
The Chinese Journal of Nonferrous Metal. 23 (2013) 182-190
Li2TiO3 becomes one of our preferred materials due to its stable chemical properties and high mechanical strength [7-10].
Li2CO3 and TiO2 are the raw materials for Li2TiO3 synthesis based on solid phase method. .
Kong, Research progress on fabrication of Li2TiO3 solid tritium breeder materials.
The Chinese Journal of Nonferrous Metal. 23 (2013) 182-190
Online since: August 2019
Authors: Mochammad Zainuri, Bintoro Anang Subagyo, Ega Novialent
Li / Li +, an attractive cost compared to LiCoO2 and most significant, are safer than other cathode materials in situations of high discharge [6].
The diffraction peaks of the samples were quite narrow, which indicated a high crystallinity of the materials.
XRD patterns of the LiNixFe1-xPO4/C cathode materials.
Table 1 Lattice parameters of the LiNixFe1 xPO4/C cathode materials.
Journal of Power Sources, 263 (2014) 296–303
The diffraction peaks of the samples were quite narrow, which indicated a high crystallinity of the materials.
XRD patterns of the LiNixFe1-xPO4/C cathode materials.
Table 1 Lattice parameters of the LiNixFe1 xPO4/C cathode materials.
Journal of Power Sources, 263 (2014) 296–303
Online since: February 2014
Authors: Engku Abd Engku Ali Ghapur, Hasiah Salleh, W.A. Dhafina, A. Hamizah, A.R.N. Laily, Hazirah Che Hassan, Nik Ali Nik Aziz
Laily4 and Hazirah Che Hassan
1,Department of Physical Sciences, Faculty of Science and Technology, Universiti Malaysia Terengganu, 21030 Kuala Terengganu, Terengganu
2Renewable Energy Research Group, Faculty of Science & Technology, University Malaysia Terengganu,21030 Kuala Terengganu, Terengganu, Malaysia.
3Advanced Materials Research Group, Faculty of Science & Technology, University Malaysia Terengganu, 21030 Kuala Terengganu, Terengganu, Malaysia.
4Faculty of Applied Science, Universiti Teknologi MARA Terengganu, Sura Hujung 23000 Dungun, Terengganu
*hasiah @umt.edu.my
Keywords: Electrical Properties; Efficiency; Organic Solar Cell
Abstract.The main focus in this work is to study the electrical properties and efficiency of the mixtureof organic materials that can absorb wide range of light spectrum.
The lower Eg of the mixture materials can get better collection of Photon.
The combination of these features has been shown the 3:1:2 samples is the best solar cells in a mixture of these materials.
Senin, 2009, Electrical Conductivity of Chlorophyll With Polythiophene Thin Film on Indium Tin Oxide as P-N Heterojunction Solar Cell, Journal of Physical Science, 19, 77-92
[9] Savenije, T.J. 2008.Organic Solar Cells Opto-Electronic Materials.Chapter 8 Exciton solar cells.DelftChemTech, Faculty of Applied Sciences Delft University of Technology, Netherlands, 20 March
The lower Eg of the mixture materials can get better collection of Photon.
The combination of these features has been shown the 3:1:2 samples is the best solar cells in a mixture of these materials.
Senin, 2009, Electrical Conductivity of Chlorophyll With Polythiophene Thin Film on Indium Tin Oxide as P-N Heterojunction Solar Cell, Journal of Physical Science, 19, 77-92
[9] Savenije, T.J. 2008.Organic Solar Cells Opto-Electronic Materials.Chapter 8 Exciton solar cells.DelftChemTech, Faculty of Applied Sciences Delft University of Technology, Netherlands, 20 March
Online since: December 2013
Authors: Gui Fu, Chang Cheng Wu, Chang Qing Jin
Table 1 Indicators and weights
Secondary indicator
Weight
Synthetic weight
Secondary indicator
Weight
Synthetic weight
Safety perspective
0.18
0.0027
Communication
0.54
0.0270
Safety climate
0.35
0.0053
Safety meeting
0.23
0.0115
Safety policy
0.47
0.0070
Inspiring method
0.23
0.0115
Top manager
0.34
0.0170
Compliance assurance
0.28
0.0238
Organization & personnel
0.32
0.0160
Rules & regulations
0.36
0.0306
Responsibility
0.34
0.0170
Technical documents
0.36
0.0306
Setting of goals
0.91
0.0319
Report & investigation
0.62
0.0403
Control of goals
0.09
0.0032
Statistics & analysis
0.18
0.0117
Equipment& Facility
0.65
0.0975
Tracking process
0.20
0.0130
Dangerous materials
0.35
0.0525
Emergency arrangement
0.40
0.0300
Work safety scheme
0.21
0.0420
Emergency plan
0.30
0.0225
Working authorization
0.16
0.0320
Emergency drilling
0.30
0.0225
Working environment
0.21
0.0420
Risk identification
0.11
0.0165
Personal protection
0.14
0.0280
Risk evaluation
0.15
0.0225
Contractor management
0.19
0.0380
Shang: Journal of Nanjing University of Economics Serial, vol. 120 (2003), p. 50-52.
Li: Journal of Shenyang Institute of Engineering (Social Sciences), Vol. 6 (2010) no. 2, p. 200-203.
(In Chinese) [4] K.Q Zhao: Set Pair Analysis and its preliminary application (Zhejiang Science and Technology Press, Hangzhou 2000)
Li: Science in China (Series E: Technological Sciences), Vol. 3 (2009) no. 9, p. 1529-1534.
Shang: Journal of Nanjing University of Economics Serial, vol. 120 (2003), p. 50-52.
Li: Journal of Shenyang Institute of Engineering (Social Sciences), Vol. 6 (2010) no. 2, p. 200-203.
(In Chinese) [4] K.Q Zhao: Set Pair Analysis and its preliminary application (Zhejiang Science and Technology Press, Hangzhou 2000)
Li: Science in China (Series E: Technological Sciences), Vol. 3 (2009) no. 9, p. 1529-1534.
Online since: February 2013
Authors: Heng Zhang, Xiao Hong Zhou, Zong Bao Fang, Lin Sen Chen
With the increasing number of laser pulses, more material is vaporized from the sample and the depth of grooves keeps increasing.
So only the material about the interfering minima position is remained at its original position after ablation as show in Fig. 5b.
Acknowledgements This work is supported by the Natural Science Foundationof China under grant No. 10904013,61205020, 91023044, Jiangsu province science and technology support program (Industry) No.BE2011087, Suzhou science and technology program NO.
Naessens, Heidi Ottevaere et al.: AppliedSurface Science,Vol. 208-209(2003), p. 159 [4] Lee Kug-Seung; KangEun-Jeong: Journal of Applied Physics; Vol.93(2003),p. 9383 [5]A.
[12 ] Harris, Alphonse F.: Journal of Applied Physics, vol. 109(2011), p. 096101
So only the material about the interfering minima position is remained at its original position after ablation as show in Fig. 5b.
Acknowledgements This work is supported by the Natural Science Foundationof China under grant No. 10904013,61205020, 91023044, Jiangsu province science and technology support program (Industry) No.BE2011087, Suzhou science and technology program NO.
Naessens, Heidi Ottevaere et al.: AppliedSurface Science,Vol. 208-209(2003), p. 159 [4] Lee Kug-Seung; KangEun-Jeong: Journal of Applied Physics; Vol.93(2003),p. 9383 [5]A.
[12 ] Harris, Alphonse F.: Journal of Applied Physics, vol. 109(2011), p. 096101
Catalytic Oxidative Desulfurization of Model Fuel Using [HPMo][HTAC]2/SiO2 as a Amphiphilic Catalyst
Online since: November 2011
Authors: Guang Hui Wang, Ning Wang, Qi Na Li, Qi Gang Zhang, Qi Lei, Yu Li Hu, Yu Qin Zhang, Jiang Hua Qiu
Catalytic Oxidative Desulfurization of Model Fuel using [HPMo][HTAC]2/SiO2 as a Amphiphilic Catalyst
Qina Lia, Guanghui Wangb, Jianghua Qiuc, Ning Wangd, Qigang Zhange, Qi Leif, Yuli Hug, Yuqin Zhangh
Hubei Coal Conversion and New Carbon Materials Key Laboratory, Wuhan University of Science and Technology, Wuhan 430081, P.R.
Acknowledgements This work is supported by the University Doctoral Program Foundation of China (No. 200804880003), the Natural Science Foundation of Hubei Provincial Department of Education (No.
Q20111104) and the Youth Foundation of Wuhan University of Science and Technology (No. 2010xz013).
Purkait: Journal of Hazardous Materials.
Lu: Journal of Wuhan University of Science and Technology.
Acknowledgements This work is supported by the University Doctoral Program Foundation of China (No. 200804880003), the Natural Science Foundation of Hubei Provincial Department of Education (No.
Q20111104) and the Youth Foundation of Wuhan University of Science and Technology (No. 2010xz013).
Purkait: Journal of Hazardous Materials.
Lu: Journal of Wuhan University of Science and Technology.
Online since: January 2011
Authors: Yong Hui Wei, Yong Zhen Zhang, Yue Chen
School of Material Science and Engineering, Henan University of Science and Technology, LuoYang 471003,China
3.Henan Laboratory for Material damage and Tribology, LuoYang 471003,China
ayangguangyingyu@163.com, byzzhang@mail.haust.edu.cn, cchenyue@mail.haust.edu.cn
Keywords: DC magnetic field,magnetic field intensity,super-paramagnetic
Abstract.
Introduction Along with the development of science and technology, especially the extension of electromagnetic technology application, more and more friction pairs of electrical equipments and appliances have been used under the electromagnetic condition, and most of the materials used are ferri-magnetic and therefore the study on the influential factors and regularity of friction and wear characteristics of ferri-magnetic friction pairs under a magnetic field condition and the establishment of theoretical basis and guideline for concurrent tribology have become critical topics for mechanical designs.
[4] A Senouci, H.Zaidi, J Frene: Applied Surface Science.
Vol. 208(1997), p.105-112 [8]An Zhe, ZHU ling, LIN feng: Journal of Harbin Medical University.
Vol. 38-5(2004), p.424-425 [9] ZHANG Guan-dong, GUAN Yue-ping, SHAN Guo-bin: The Chinese Journal of Process Engineering.
Introduction Along with the development of science and technology, especially the extension of electromagnetic technology application, more and more friction pairs of electrical equipments and appliances have been used under the electromagnetic condition, and most of the materials used are ferri-magnetic and therefore the study on the influential factors and regularity of friction and wear characteristics of ferri-magnetic friction pairs under a magnetic field condition and the establishment of theoretical basis and guideline for concurrent tribology have become critical topics for mechanical designs.
[4] A Senouci, H.Zaidi, J Frene: Applied Surface Science.
Vol. 208(1997), p.105-112 [8]An Zhe, ZHU ling, LIN feng: Journal of Harbin Medical University.
Vol. 38-5(2004), p.424-425 [9] ZHANG Guan-dong, GUAN Yue-ping, SHAN Guo-bin: The Chinese Journal of Process Engineering.