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Online since: July 2014
Authors: Hai Hai Lin, Bing Chen, Jun Qiang Xue, Zhong Jun Yin
The iron material is usually to be in uneven condition before tension and it has some defects.
Journal of Inner Mongolia University of Science and Technology, 2010, 4(29):339-343.
Journal of University of Science and Technology Beijing, 1999.
Journal of Shanghai Metal, 2001, 11(6):30-34.
Journal of Hydraulic and pneumatic seals, 2008(3):11-13.
Journal of Inner Mongolia University of Science and Technology, 2010, 4(29):339-343.
Journal of University of Science and Technology Beijing, 1999.
Journal of Shanghai Metal, 2001, 11(6):30-34.
Journal of Hydraulic and pneumatic seals, 2008(3):11-13.
Online since: July 2011
Authors: Hong Chen, Yong Feng Li, Wei Han, Fang Jing Liu, Zhan Qing Wang
Materials and Methods
Microbes in Tests and Batch Tests
The hydrogen production bacteria named Biohydrogenbacterium R3 sp.nov. was isolated from a continuous flow, high-rate acidogenic reactor with ethanol-type fermentation.
Acknowledgement The authors wish to thank the National 863 Program (2006AA05Z109), Shanghai Science and Technology Committee (071605122), Northeast Forestry University (GRAP10). he correspondence author is Yong-feng LI (E-mail: dr_lyf@163.com) References [1] Nan-Qi Ren, Dong-Yang Wang, Chuan-Ping Yang, Lu Wang, Jing-Li Xu, Yong-Feng Li, Selection and isolation of hydrogen-producing fermentative bacteria with high yield and rate and its bioaugmentation process, International Journal of Hydrogen Energy, 2010(35) 2877~2882
Jose Gilbert, Debabrata Das, Improvement of biohydrogen production by Enterobacter cloacae IIT-BT08 under regulated pH, Journal of Biotechnology, 2011(152):9-15
[4] Juan Wei, Zuo-Tao Liu, Xin Zhang, Biohydrogen production from starch wastewater and application in fuel cell, International Journal of Hydrogen Energy. 2010(35):2949-2952
[11] State Environmental Protection Administration (SEPA). (2006) Water and Wastewater Monitoring Analysis Method(Ⅳ)(M), China Environment Science Press, Vol.11, pp.102~210
Acknowledgement The authors wish to thank the National 863 Program (2006AA05Z109), Shanghai Science and Technology Committee (071605122), Northeast Forestry University (GRAP10). he correspondence author is Yong-feng LI (E-mail: dr_lyf@163.com) References [1] Nan-Qi Ren, Dong-Yang Wang, Chuan-Ping Yang, Lu Wang, Jing-Li Xu, Yong-Feng Li, Selection and isolation of hydrogen-producing fermentative bacteria with high yield and rate and its bioaugmentation process, International Journal of Hydrogen Energy, 2010(35) 2877~2882
Jose Gilbert, Debabrata Das, Improvement of biohydrogen production by Enterobacter cloacae IIT-BT08 under regulated pH, Journal of Biotechnology, 2011(152):9-15
[4] Juan Wei, Zuo-Tao Liu, Xin Zhang, Biohydrogen production from starch wastewater and application in fuel cell, International Journal of Hydrogen Energy. 2010(35):2949-2952
[11] State Environmental Protection Administration (SEPA). (2006) Water and Wastewater Monitoring Analysis Method(Ⅳ)(M), China Environment Science Press, Vol.11, pp.102~210
Online since: February 2011
Authors: Li Juan Zhao, Zhong Gang Sun
Axis of the planet given to different materials to comparative simulation and comprehensive analysis, given the best materials of planetary shaft should be selected, improved the reliability of planetary axis under poor conditions.
The selected materials of planetary shaft should be with high yield strength and good rigidity to meet the required strength in severe shock.
Through the analysis of simulation, it won't generate larger influence for the force situation of shell and planetary when the planet shaft materials changed in the prototype model.
References [1] Lijuan Zhao, Mengmeng Dong: Journal of China Coal Society.
In chinese. 4 (2009), p. 472 [7] Zhangyi Zhou, Fu Li, Maohai Fu: China Railway Science.
The selected materials of planetary shaft should be with high yield strength and good rigidity to meet the required strength in severe shock.
Through the analysis of simulation, it won't generate larger influence for the force situation of shell and planetary when the planet shaft materials changed in the prototype model.
References [1] Lijuan Zhao, Mengmeng Dong: Journal of China Coal Society.
In chinese. 4 (2009), p. 472 [7] Zhangyi Zhou, Fu Li, Maohai Fu: China Railway Science.
Online since: October 2013
Authors: Li Fen Hou, Ren Ping Zou, Xin Yu Liu
There are still many shortcomings for improvement, such as wheel loading, wheel wear, low material removal rate and so on[3], many scholars dedicated to the optimization and improvement of grinding process and new grinding process has been introduced into the brittle material machining.
Acknowledgements This work was financially supported by the Project of Shandong Province Higher Educational Science and Technology Program (J13LN68).
Journal of Non-Crystalline Solids.
Experimental study on ultrasonic grinding of hard and brittle material.
Journal of Liaoning Technical University(Natural Science), Vol.29 (2010), p. 287–289
Acknowledgements This work was financially supported by the Project of Shandong Province Higher Educational Science and Technology Program (J13LN68).
Journal of Non-Crystalline Solids.
Experimental study on ultrasonic grinding of hard and brittle material.
Journal of Liaoning Technical University(Natural Science), Vol.29 (2010), p. 287–289
Online since: September 2018
Authors: Fateh Mebarek-Oudina, Oluwole Daniel Makinde, Jawad Reza
Aziz, Boundary layer flow of a nanofluid past a stretching sheet with aconvective boundary condition.International Journal of Thermal Sciences, 50 (2011) 1326-1332
New Trends in Mathematical Sciences, 2(3) (2014) 145-158
Thermal Science and Engineering Progress, 2 (2017) 57–63
Multidiscipline Modeling in Materials and Structures, 12(4) (2016), 619-634
Engineering Science and Technology, 20 (4) (2017) 1324-1333
New Trends in Mathematical Sciences, 2(3) (2014) 145-158
Thermal Science and Engineering Progress, 2 (2017) 57–63
Multidiscipline Modeling in Materials and Structures, 12(4) (2016), 619-634
Engineering Science and Technology, 20 (4) (2017) 1324-1333
Online since: September 2013
Authors: Chong Yan Leng, Yong Shun Cui, Yin Li, Xiao Pei Wu, Qing Hua Chen
Investigation of Bio-mimetic synthesis
SH/KGM/HAP Scaffold
Chongyan LENG1,a, Yongshun CUI, Yin LI,
Xiaopei Wu , Qinghua Chen 1,b
1Faculty of Material Science and Engineering, Kunming University of Science and Technology, Kunming, 650093,China
a lengchongyan22@yahoo.com.cn, chenqinghua_yn1@163.com
Keywords: Sodium Hyaluronate, Konjac glucomannan, Hydroxyl-apatite, Bio-mimetic synthesis
Abstract: Sodium hyaluronate / konjac glucomannan (SH/KGM) porous scaffolds were prepared via blending sodium hyaluronate and konjac glucomannan.
X-ray diffraction and fourier transform infrared spectroscopy (FTIR) were used to characterize the crystallization and chemical structure of SH/KGM and SH/KGM/HAP scaffold materials.
It indicates that SH/KGM porous scaffold materials induce HAP crystal depositing, the spherical particles have the size between 1 ~ 5 μ m, and they piled up tightly one by one in the SH/KGM/HAP scaffold sample. 2.3 Chemical structures of the SH/KGM and SH/KGM/HAP scaffold samples Fig.3 FTIR spectra of the SH/KGM and SH/KGM/HAP scaffold samples The FTIR spectra of the SH/KGM and SH/KGM/HAP scaffold samples are presented in Fig.3.
Acknowledgements This work is supported by the Basic Application Research of Yunnan Province in key Projects (2009CC020), Foreign Science and Technology Cooperation Programs of International Cooperation (2011IA008) and Basic Application Research of Yunnan Province (KKSA201151053).
:Science & Technology Review [J], 2008, 26(22): p. 47-49 [7] L.Hong, H.Weiya , Z Yuanming, et al.. : Materials Science and Engineering C,2007, 27: p.756–761 [8] X.Y.Lin, Q.Wu, X.G.Luo, et al.. : Carbohydrate Polymers , 2010,82: p.167–172 [9] D.Jian, D.Jing, J.L.Liu , et al.. : Reactive & Functional Polymers, 2006,66: p.1055–1061 [10] A.Felipe, L.Mariana , L.Igor : International Journal of Pharmaceutics, 2008,349: p. 11–18
X-ray diffraction and fourier transform infrared spectroscopy (FTIR) were used to characterize the crystallization and chemical structure of SH/KGM and SH/KGM/HAP scaffold materials.
It indicates that SH/KGM porous scaffold materials induce HAP crystal depositing, the spherical particles have the size between 1 ~ 5 μ m, and they piled up tightly one by one in the SH/KGM/HAP scaffold sample. 2.3 Chemical structures of the SH/KGM and SH/KGM/HAP scaffold samples Fig.3 FTIR spectra of the SH/KGM and SH/KGM/HAP scaffold samples The FTIR spectra of the SH/KGM and SH/KGM/HAP scaffold samples are presented in Fig.3.
Acknowledgements This work is supported by the Basic Application Research of Yunnan Province in key Projects (2009CC020), Foreign Science and Technology Cooperation Programs of International Cooperation (2011IA008) and Basic Application Research of Yunnan Province (KKSA201151053).
:Science & Technology Review [J], 2008, 26(22): p. 47-49 [7] L.Hong, H.Weiya , Z Yuanming, et al.. : Materials Science and Engineering C,2007, 27: p.756–761 [8] X.Y.Lin, Q.Wu, X.G.Luo, et al.. : Carbohydrate Polymers , 2010,82: p.167–172 [9] D.Jian, D.Jing, J.L.Liu , et al.. : Reactive & Functional Polymers, 2006,66: p.1055–1061 [10] A.Felipe, L.Mariana , L.Igor : International Journal of Pharmaceutics, 2008,349: p. 11–18
Online since: August 2011
Authors: Zheng Lin Liu, En Gao Peng
Journal of Vibration and Shock, Vol. 27 (2008), p 75-79
Journal of Tribology, Vol. 130 (2008), p 1-7
Advanced Materials Research, Vol. 108-111(2010), p 1033-38
Journal of Marine Science and Application, Vol. 10 (2011), p 1-7
Journal of Tribology, ASME, Vol. 127(2005), p 394-404
Journal of Tribology, Vol. 130 (2008), p 1-7
Advanced Materials Research, Vol. 108-111(2010), p 1033-38
Journal of Marine Science and Application, Vol. 10 (2011), p 1-7
Journal of Tribology, ASME, Vol. 127(2005), p 394-404
Online since: January 2014
Authors: Shu Wei Wei, Yan Li Yang, Zhao Wu Li
Prompting the upper space of buildings coincide with land natural spatial forms, which is an effective measures to create characteristics, as well as to reduce land, materials and energy consumption in the urban settlements construction.
Journal of huazhong architecture,1998,l6(1):52-54 (In chinese) [4] Jing Zhao et al.
Journal of information science and technology,2006,10(4):487-489 (In chinese) [5] W.
Journal of residential science and technology,2013,19(1):12-15 (In chinese) [6] G.
Journal of geographical science,2009,29(5):628-633 (In chinese)
Journal of huazhong architecture,1998,l6(1):52-54 (In chinese) [4] Jing Zhao et al.
Journal of information science and technology,2006,10(4):487-489 (In chinese) [5] W.
Journal of residential science and technology,2013,19(1):12-15 (In chinese) [6] G.
Journal of geographical science,2009,29(5):628-633 (In chinese)
Online since: November 2011
Authors: Ming Hui, Yin Chen Hou, Qing Tian, Xiao Li Shang, Kai Ping Zhang
Materials and methods
Strain and media.
Qin: The Chinese Journal of Nonferrous Metals.
Hou: Journal of Henan Institute of Science and Technology(Natural Sciences Edition).
Dou: Journal of Henan Normal University(Natural Science).
Dai: Journal of Mineralogy and Petrology.
Qin: The Chinese Journal of Nonferrous Metals.
Hou: Journal of Henan Institute of Science and Technology(Natural Sciences Edition).
Dou: Journal of Henan Normal University(Natural Science).
Dai: Journal of Mineralogy and Petrology.
Online since: January 2012
Authors: Pei Xin Zhang, Xiang Zhong Ren, Chuan Shi, Jian Hong Liu
Preparation of LiV3O8 materials.
Preparation of LiV3O8/MWCNTs composite materials.
Fig. 2 XRD patterns of MWCNTs Fig. 3 XRD patterns of cathode materials SEM and the morphology of materials.
Acknowledgements Financial supports for this work were provided by the National Natural Science Foundation of China (grant #50974090) and the Shenzhen Key Laboratory of New Lithium-ion Battery and Mesoporous Materials (20110201).
Liu: Journal of Power Sources, Vol. 174 (2007), p. 1095
Preparation of LiV3O8/MWCNTs composite materials.
Fig. 2 XRD patterns of MWCNTs Fig. 3 XRD patterns of cathode materials SEM and the morphology of materials.
Acknowledgements Financial supports for this work were provided by the National Natural Science Foundation of China (grant #50974090) and the Shenzhen Key Laboratory of New Lithium-ion Battery and Mesoporous Materials (20110201).
Liu: Journal of Power Sources, Vol. 174 (2007), p. 1095