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Online since: July 2011
Authors: Guo Qing Zhang, Zhong Qiong Xiong, Liang Xiong, Li Peng Fu, Hua Geng Pan
Photocatalytic Inactivation of Chlorella by TiO2/Foam Nickel
Zhongqiong Xiong1,a, Guoqing Zhang*1,b, Liang Xiong1,c, Lipeng Fu2 and Huageng Pan2
1Faculty of Materials and Energy, Guangdong University of Technology, Guangzhou, Guangdong, 5l0006, China
2Shunde Dowell Science & Technology Environmental Protection Engineering CO., LTD, Shunde, Guangdong, 528300, China
a bearxiong1988@126.com, b pdzgq008@126.com, c xiongliang0806@126.com
Keywords: photocatalysis; TiO2/ foam nickel; circulating cooling water; chlorella; chlorophyll-A
Abstract.
Experiment Experimental Apparatus and Materials.
References: [1] L.Luo, L.Miao, S.Tanemura and M.Tanemura: Materials Science and Engineering B Vol.148 (2008), p. 183-186
[6] S.C.Kim and D.K.Lee: Microchemical Journal Vol.80 (2005), p. 227-232
[8] J.L.Hong and M.Otaki: Journal of Bioscience and Bioengineering Vol.101 (2006), p. 185-189
Experiment Experimental Apparatus and Materials.
References: [1] L.Luo, L.Miao, S.Tanemura and M.Tanemura: Materials Science and Engineering B Vol.148 (2008), p. 183-186
[6] S.C.Kim and D.K.Lee: Microchemical Journal Vol.80 (2005), p. 227-232
[8] J.L.Hong and M.Otaki: Journal of Bioscience and Bioengineering Vol.101 (2006), p. 185-189
Online since: February 2011
Authors: S.M. Sapuan, Abdan Khalina, E.S. Zainuddin, I.S. Aji
Thomas, Journal of Applied Polymer Science, Vol. 96, No. 5, (2005), p. 1699–1709
Horiba, Journal of materials science, Vol. 29, No. 4, (1994), p. 973–977
Abdan, International Journal of Mechanical and Materials Engineering (IJMME), Vol. 4, No. 3, (2009) p. 239–248
Gatenholm, Journal of Applied Polymer Science, Vol. 42, No. 3, (1991) p. 609–620
Ishak, Journal of Applied Polymer Science, Vol. 70, No. 13, (1998), p. 2647–2655
Horiba, Journal of materials science, Vol. 29, No. 4, (1994), p. 973–977
Abdan, International Journal of Mechanical and Materials Engineering (IJMME), Vol. 4, No. 3, (2009) p. 239–248
Gatenholm, Journal of Applied Polymer Science, Vol. 42, No. 3, (1991) p. 609–620
Ishak, Journal of Applied Polymer Science, Vol. 70, No. 13, (1998), p. 2647–2655
Online since: December 2010
Authors: Xiao Bo Liu, Kai Qin Li
Contrast and computational analysis of entity load
Material is a key factor which affects service life of rotor system; ANSYS software can simulate different kinds of material in engineering practice by changing attribute set of material.
Acknowledgements This work is supported by Aviation Science Fund Project(2009ZD56007), Natural Science Foundation of Jiangxi Province (2008GZC0032).
Meng, R Gasch: ASME DE.Vibration of Rotoring System Vol.10 (1993), p.315 [3] K.H.Kim and J.H.Kim: Journal of Sound and Vibration Vol.233 (2000), p.119 [4] X.B.
(Nature Science Edition) Vol.33(2005), p.51.
(in Chinese ) [5] Bo-Wun Huang: International Journal of Mechanical Sciences Vol.48 (2006), p.1
Acknowledgements This work is supported by Aviation Science Fund Project(2009ZD56007), Natural Science Foundation of Jiangxi Province (2008GZC0032).
Meng, R Gasch: ASME DE.Vibration of Rotoring System Vol.10 (1993), p.315 [3] K.H.Kim and J.H.Kim: Journal of Sound and Vibration Vol.233 (2000), p.119 [4] X.B.
(Nature Science Edition) Vol.33(2005), p.51.
(in Chinese ) [5] Bo-Wun Huang: International Journal of Mechanical Sciences Vol.48 (2006), p.1
Online since: October 2013
Authors: Feng Ma, Feng Yan Lu
Acknowledgements
This material is based upon work supported by the Science and Technology Development Plan of Shandong Province (grant No. 201116045 and 201013035) and the Science and Technology Development Plan of Shandong Province (grant No. 2010G0020324 and 2006GG2203027).
Wang, Journal of hazardous materials. 131(2006), p.103 [15]D.
Wang, Journal of Xinyang Normal University (Natural Science Edition). 18(2005), p454 [16] Y.
Sanghi, Journal of hazardous materials. 47(2006), p.254 [21]S.
An, Journal of Anhui Agricultural Sciences. 40(2012), p.8240
Wang, Journal of hazardous materials. 131(2006), p.103 [15]D.
Wang, Journal of Xinyang Normal University (Natural Science Edition). 18(2005), p454 [16] Y.
Sanghi, Journal of hazardous materials. 47(2006), p.254 [21]S.
An, Journal of Anhui Agricultural Sciences. 40(2012), p.8240
Online since: February 2012
Authors: Hui Chen, Guo Qing Gou, Yan Liu, Yu Chen, Da Li, Hua Ji, Gui Guo Wang
Analysis of crack on rail web after flash welding
Da Li1, a, Guiguo Wang2,b, Yu Chen3,c, Guoqing Gou1,d, Yan Liu1,e, Hua Ji1,f,
Hui Chen1,g*
1School of Materials Science and Engineering, Southwest Jiaotong University, Chengdu 610031, China
2CNR Tangshan Railway Vehicle Co., Ltd.
Experimental materials and methods A failure U71Mn steel was selected to analysis, whose composition is listed in Table1.
Materials & Design, 2012, 33:175-184
Journal of materials science, 2001, 36:389-397
Journal of Materials Engineering and Performance, 2000, 9(6):700-709
Experimental materials and methods A failure U71Mn steel was selected to analysis, whose composition is listed in Table1.
Materials & Design, 2012, 33:175-184
Journal of materials science, 2001, 36:389-397
Journal of Materials Engineering and Performance, 2000, 9(6):700-709
Online since: June 2014
Authors: Robert Seifried, Hirofumi Minamoto, Peter Eberhard, Shozo Kawamura
Further, the variation of the COR for impact repetition of visco-plastic materials, such as steel, has not been investigated in full detail yet.
It has been observed that the COR increases with impact repetition for simple elastic-plastic materials with strain hardening [6-8].
However, the variation of the COR for impact repetition of visco-plastic materials, such as steel, has not been investigated in full detail yet.
Kawamura: Effects of material strain rate sensitivity in low speed impact between two identical spheres, International Journal of Impact Engineering, Vol. 36, (2009), pp. 680-686
Journal of Applied Mechanics, Vol. 77, No. 4, (2010), 41008, pp.1-7.
It has been observed that the COR increases with impact repetition for simple elastic-plastic materials with strain hardening [6-8].
However, the variation of the COR for impact repetition of visco-plastic materials, such as steel, has not been investigated in full detail yet.
Kawamura: Effects of material strain rate sensitivity in low speed impact between two identical spheres, International Journal of Impact Engineering, Vol. 36, (2009), pp. 680-686
Journal of Applied Mechanics, Vol. 77, No. 4, (2010), 41008, pp.1-7.
Online since: July 2011
Authors: Bo Rong Wu, Cun Zhong Zhang, Chun Wei Yang, Feng Wu, Ning Li
Research on the electrical electrochemical properties of the LiFe0.98Mn0.02(PO4)1-0.02/3Cl0.02/C cathode materials
Ning Li1,2,a , Borong Wu1,2, b, Cunzhong Zhang1,2,c, Chunwei Yang1,2,d ,
Feng Wu1,2,e
1Beijing Higher Institution Engineering Research Center of Power Battery and Chemical Energy Materials , Beijing 100081 China;
2School of Chemical Engineering and Environment Science, Beijing Institute of Technology, Beijing 100081 China;
alining555good@163.com, bborongwu@gmail.com, cczzhangchem@bit.edu.cn, dyangchunweihit@sina.com,ewufeng863@vip.sina.com
Keywords: LiFePO4; cathod; Mn-Cl co-doping
Abstract: The Mn-Cl co-doped LiFePO4 was succefully synthetized by two-step solid-state reaction.
Introduction Olivine-type LiFePO4 is one of the most promsing cathode materials because of its high theoretical capacity (170mAhg−1), stable cycly ability, environmental benign, low-cost raw materials.
The cathode consisted of 78wt.% active materials, 15wt.% acetylene black and 7wt.% PVDF(Polyvinylidene Fluoride) on aluminum foil.
Fig. 3 shows the galvanostatic charge/discharge curves of the pristine and Mn–Cl co-doped LiFePO4/C materials.
The Li+ ion diffusion coefficient in olivine LiFePO4 is 7.15×10-12 by C-coating, while 5.48×10-11cm2 s−1 to the co-doped materials.
Introduction Olivine-type LiFePO4 is one of the most promsing cathode materials because of its high theoretical capacity (170mAhg−1), stable cycly ability, environmental benign, low-cost raw materials.
The cathode consisted of 78wt.% active materials, 15wt.% acetylene black and 7wt.% PVDF(Polyvinylidene Fluoride) on aluminum foil.
Fig. 3 shows the galvanostatic charge/discharge curves of the pristine and Mn–Cl co-doped LiFePO4/C materials.
The Li+ ion diffusion coefficient in olivine LiFePO4 is 7.15×10-12 by C-coating, while 5.48×10-11cm2 s−1 to the co-doped materials.
Online since: June 2012
Authors: Li Tao Dong, Weng Fa Xiao, Jie Zhu
Synthesis of graft copolymer
Materials.Guar gum (GG) was commercially available which was purified before using.
[3]Mohan A., and Dawid: Journal of Applied Polymer Science Vol. 117 (2010), p.148–154
[4] Feng Liu, and Xuegang Luo: Journal of Hazardous Materials Vol.171 (2009),p.802–808
[8] Arh-Hwang Chen: Journal of Hazardous Materials Vol.154 (2008), p. 184–191
[10] Arh-Hwang and Cheng-Yu: Journal of Hazardous Materials Vol.163 (2009), p.1068–1075.
[3]Mohan A., and Dawid: Journal of Applied Polymer Science Vol. 117 (2010), p.148–154
[4] Feng Liu, and Xuegang Luo: Journal of Hazardous Materials Vol.171 (2009),p.802–808
[8] Arh-Hwang Chen: Journal of Hazardous Materials Vol.154 (2008), p. 184–191
[10] Arh-Hwang and Cheng-Yu: Journal of Hazardous Materials Vol.163 (2009), p.1068–1075.
Online since: October 2024
Authors: Pranjal Shome, Urnanav Khound, Swapnojit Das, Jyoti Bhukhan, Bipul Das, Sunilkumar Dhasan
The development of a bamboo-based Nylon 66 composite through FSW involves a multidisciplinary approach, combining materials science, polymer processing, and welding technology.
Arabian Journal for Science and Engineering 44 (2019): 7399-7405
Materials science and engineering: R: reports 50.1-2 (2005): 1-78
Journal of King Saud University-Science 32.1 (2020): 1130-1134
Journal of Materials Engineering and Performance 30 (2021): 1221-1233
Arabian Journal for Science and Engineering 44 (2019): 7399-7405
Materials science and engineering: R: reports 50.1-2 (2005): 1-78
Journal of King Saud University-Science 32.1 (2020): 1130-1134
Journal of Materials Engineering and Performance 30 (2021): 1221-1233
Online since: February 2019
Authors: O.V. Zaitseva, Evgeny A. Trofimov, Denis Vinnik
Introduction
Since the beginning of the 21st century, the science of materials has been actively developing the direction associated with the development and application of highly entropic systems [1].
Li, Formation rules of single phase solid solution in high entropy alloys, Materials Science and Technology, 32(6)(2016)588-592
Dragoe, Room temperature lithium superionic conductivity in high entropy oxides, Journal of Materials Chemistry A, 4 (2016) 9536-9541
Chen, The microstructures and electrical resistivity of (Al,Cr,Ti)FeCoNiOx high-entropy alloy oxide thin films, Advances in Materials Science and Engineering, 6 (2015)
Yang, Magnetic and dipole moments in indium doped barium hexaferrites, Journal of Magnetism and Magnetic Materials, 457 (2018) 83-96.
Li, Formation rules of single phase solid solution in high entropy alloys, Materials Science and Technology, 32(6)(2016)588-592
Dragoe, Room temperature lithium superionic conductivity in high entropy oxides, Journal of Materials Chemistry A, 4 (2016) 9536-9541
Chen, The microstructures and electrical resistivity of (Al,Cr,Ti)FeCoNiOx high-entropy alloy oxide thin films, Advances in Materials Science and Engineering, 6 (2015)
Yang, Magnetic and dipole moments in indium doped barium hexaferrites, Journal of Magnetism and Magnetic Materials, 457 (2018) 83-96.