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Online since: May 2016
Authors: Ekaterina G. Komarova, Yurii P. Sharkeev, Maria B. Sedelnikova
Wollastonite and Calcium Phosphate Biocoatings with Zn- and
Cu-incorporation Produced by a Microarc Oxidation Method
SEDELNIKOVA Maria B.1,a, KOMAROVA Ekaterina G.1,b
and SHARKEEV Yurii P.1,c
1Institute of Strength Physics and Materials Science of SB RAS, Russia, 634055,
Tomsk, 2/4 Akademicheskii pr.
Materials and methods Wollastonite–calcium phosphate (W–CaP) coatings were deposited from an electrolyte based on the aqueous solution containing phosphoric acid (30 wt%), hydroxyapatite, and wollastonite.
In order to carry out microarc oxidation the MicroArc-3.0 technique was developed at Institute of Strength Physics and Materials Science of SB RAS (ISPMS SB RAS) [3, 4].
[18] Safronova T.V., Putlyaev V.I., Medical nonorganic materials science in Russia: calcium phosphate materials, Nanosistemy: Fizika, Khimiya, Matematika (in Russian) 4 (2013) 24-47
Review, Materials 2 (2009) 399-498.
Materials and methods Wollastonite–calcium phosphate (W–CaP) coatings were deposited from an electrolyte based on the aqueous solution containing phosphoric acid (30 wt%), hydroxyapatite, and wollastonite.
In order to carry out microarc oxidation the MicroArc-3.0 technique was developed at Institute of Strength Physics and Materials Science of SB RAS (ISPMS SB RAS) [3, 4].
[18] Safronova T.V., Putlyaev V.I., Medical nonorganic materials science in Russia: calcium phosphate materials, Nanosistemy: Fizika, Khimiya, Matematika (in Russian) 4 (2013) 24-47
Review, Materials 2 (2009) 399-498.
Online since: November 2012
Authors: Wen Ya Du, Wei Ping Song, Deng Chao Feng, Li Hong Zhang
Compaction is the key factor of guarantee the highway construction quality and the efficiency, which is the important link to make the structure material of subgrade-pavement to gain enough compactness[2,3].
However, due to improper control of rolling process, some problems are often appeared, such as the disqualified compactness with the fewer times of compaction and the reducing compactness with overmuch times of compaction [4], in which a huge waste of manpower and material resources is often caused correspondingly.
Acknowledgements This work was supported by the doctoral fund project of NCIAE under the grant No.KY-2008-02-B, natural science fund of Hebei Province under the grand No.F2011409008 and the youth fund of Hebei Province under the grant No.2010208.The author wishes to thank all colleagues who previously provided technical support.
References [1] Yongfeng Ju: Research of Intelligent Compaction Control and Intelligent Fault Diagnosis for Vibratory Roller,Chang An University Doctoral Degree Thesis, p.6-12.(2005) [2] Hongmei Hu: New Method for Measuring Degree of Subgrade Compaction Quickly,Journal of Jiangsu University of Science and Technology, 24(3),p. 84-87.(2003) [3] Huiying Tu and Yinglong Pan: Detection of Subgrade Compaction Degree, Communications Science and Technology Heilongjiang, (11),p.31-33.(2010) [4] Liang Wu:Research on The Compaction Degree Detection Technology of Subgrade Soil , Chongqing Jiaotong University Master Degree Thesis, p. 4-10.(2008) [5] Fei Wang and Dawei Li:Two Methods for Implementing the Short Distance Measurement by GPS,SCI-TECH Information Development and Economy, 17(10),p.153-155.(2007) [6]Wan Xiang, Zhang Mengyang: Application of GPS Relative Positioning in Gravity Satellite KBR Ranging, Electronic Design Engineering, 18(9),p. 80-83.(2010) [7]A.
Awange: Compatibility of NMEA GGA with GPS Receivers Implementation, Earth and Environmental Science, 3(3),p.1-3.(2000) [8] Dengchao Feng, Zhe Wang: Research on Missing Value Estimation in Data Mining.
However, due to improper control of rolling process, some problems are often appeared, such as the disqualified compactness with the fewer times of compaction and the reducing compactness with overmuch times of compaction [4], in which a huge waste of manpower and material resources is often caused correspondingly.
Acknowledgements This work was supported by the doctoral fund project of NCIAE under the grant No.KY-2008-02-B, natural science fund of Hebei Province under the grand No.F2011409008 and the youth fund of Hebei Province under the grant No.2010208.The author wishes to thank all colleagues who previously provided technical support.
References [1] Yongfeng Ju: Research of Intelligent Compaction Control and Intelligent Fault Diagnosis for Vibratory Roller,Chang An University Doctoral Degree Thesis, p.6-12.(2005) [2] Hongmei Hu: New Method for Measuring Degree of Subgrade Compaction Quickly,Journal of Jiangsu University of Science and Technology, 24(3),p. 84-87.(2003) [3] Huiying Tu and Yinglong Pan: Detection of Subgrade Compaction Degree, Communications Science and Technology Heilongjiang, (11),p.31-33.(2010) [4] Liang Wu:Research on The Compaction Degree Detection Technology of Subgrade Soil , Chongqing Jiaotong University Master Degree Thesis, p. 4-10.(2008) [5] Fei Wang and Dawei Li:Two Methods for Implementing the Short Distance Measurement by GPS,SCI-TECH Information Development and Economy, 17(10),p.153-155.(2007) [6]Wan Xiang, Zhang Mengyang: Application of GPS Relative Positioning in Gravity Satellite KBR Ranging, Electronic Design Engineering, 18(9),p. 80-83.(2010) [7]A.
Awange: Compatibility of NMEA GGA with GPS Receivers Implementation, Earth and Environmental Science, 3(3),p.1-3.(2000) [8] Dengchao Feng, Zhe Wang: Research on Missing Value Estimation in Data Mining.
Online since: May 2011
Authors: Guo Jin Chen, Miao Fen Zhu, You Ping Gong, Shao Hui Su
Acknowledgment
This work is supported by the Zhejiang Science and Technology Project and the National Natural Science Foundation of China (No.60873106 and No.60903087).
[5] Su Shaohui, Ji Yangjian, Qi Guoning, Chen Guojin, “Project planning method for engineering-to-order product mass customization,” Journal of Zhejiang University(Engineering Science), Vol. 43, No. 10, pp. 1833-1840, 2009
[6] Chen Guojin, Chen Huipeng, Chen Liping, “Research on Multidisciplinary Modeling and Robust Control for Electric Power Steering System,” International Conference on Materials Science and Engineering Science, 2010
[5] Su Shaohui, Ji Yangjian, Qi Guoning, Chen Guojin, “Project planning method for engineering-to-order product mass customization,” Journal of Zhejiang University(Engineering Science), Vol. 43, No. 10, pp. 1833-1840, 2009
[6] Chen Guojin, Chen Huipeng, Chen Liping, “Research on Multidisciplinary Modeling and Robust Control for Electric Power Steering System,” International Conference on Materials Science and Engineering Science, 2010
Online since: September 2011
Authors: Xiao Liang Chen, Wen Yi Zhang, Xue Zhen Chen, Qiu Yan Li, Ning Han
Materials And Methods
A.
* This research was supported by the natural science fund of Jiangsu province(BK200930405, BE201077311) and the natural science fund social development project of Changzhou city(CS20100015, WS201003).
Research of Environmental Sciences, 2001,14(2): pp. 57-61
Journal of Agro-Environment Science, 2009, 28(8): pp. 1669-1675
Beijing: Science Press, 2001
* This research was supported by the natural science fund of Jiangsu province(BK200930405, BE201077311) and the natural science fund social development project of Changzhou city(CS20100015, WS201003).
Research of Environmental Sciences, 2001,14(2): pp. 57-61
Journal of Agro-Environment Science, 2009, 28(8): pp. 1669-1675
Beijing: Science Press, 2001
Online since: June 2014
Authors: Yong Ze Yuan, Yuan Lei Chen, Na Li, Jing Long Li, Yong Liang Zheng, Li Xiong, Hui Geng, Dan Dan Li, De Li Liu
Isolation and Characterization of Three Bacterium Strains for Biodegradation of Methamidophos
Dandan Li1,a, Yongze Yuan1, Yuanlei Chen1, Na Li1, Jinglong Li1,
Yongliang Zheng2, Li Xiong1, Hui Geng1, Deli Liu1,b*
1Hubei Key Laboratory of Genetic Regulation and Integrative Biology, College of Life Science, Central China Normal University, Wuhan, Hubei 430079, China
2College of Life Science and Engineering, Huanggang Normal University, Huangzhou 438000, China
alidandan _cup@163.com, bdeliliu2013@163.com
Keywords: methamidophos; bacterium strains; organophosphorus pesticides; biodegradation; isolation and characterization.
Materials and Methods A.
Acknowledgements This work was supported by the Natural Science Foundation of China (No. 31371893, 31101595), and the Fundamental Research Funds for the Central Universities (No. 120002040).
[6] ZHAO Ren-bang, BAO Hua-ying and LIU Yuan-xia: Agricultural Sciences in China, Vol. 9 (2010), p. 695-703
[7] Xu Y X, Feng Z Z, Lu P, Zhang J, Li S P, Huang X: Chinese Journal of Pesticide Science, Vol. 11 (2009), p. 329–334
Materials and Methods A.
Acknowledgements This work was supported by the Natural Science Foundation of China (No. 31371893, 31101595), and the Fundamental Research Funds for the Central Universities (No. 120002040).
[6] ZHAO Ren-bang, BAO Hua-ying and LIU Yuan-xia: Agricultural Sciences in China, Vol. 9 (2010), p. 695-703
[7] Xu Y X, Feng Z Z, Lu P, Zhang J, Li S P, Huang X: Chinese Journal of Pesticide Science, Vol. 11 (2009), p. 329–334
Online since: December 2012
Authors: Ying Lei, Li Jun Liu
Introduction
With the rapid progresses of new technology and new materials, modern structures are becoming super-long span and super-high rise.
Acknowledgment This work was supported by the Fujian Natural Science Foundation (Grant No.2010J01309).
Ripepe, et al : Cold Regions Science and Technology.
Vol.11 (2011), P. 2355 [3] Z.Feng : Natural Hazards and Earth System Sciences.
Park: Journal of Biomechanics.
Acknowledgment This work was supported by the Fujian Natural Science Foundation (Grant No.2010J01309).
Ripepe, et al : Cold Regions Science and Technology.
Vol.11 (2011), P. 2355 [3] Z.Feng : Natural Hazards and Earth System Sciences.
Park: Journal of Biomechanics.
Online since: July 2011
Authors: Bai Hua Li, Ming Ming Ji, Lin Hua Piao
Three-dimensional modeling and simulation for airflow inclination sensor
Ming-Ming Ji1, a, Lin-Hua Piao2, b, Bai-Hua Li3, c
1Beijing Information Science and Technology University, Beijing China
2Beijing Information Science and Technology University, Beijing China
3Beijing Information Science and Technology University, Beijing China
ajmm3862411@126.com, bbjplh@bistu.edu.cn, clibaihua0226@yahoo.cn
Key words: three-dimensional; airflow inclination sensor; ansys-flotran cfd; stream field.
Previous finite element research of air-angle sensor simplified sensitive components to 2d structure, simplified two platinum silk material of thermal resistor to two points of heat source.
Two small cylinders Airtight recessed in a horizontal position representative two thermistors with material of platinum silk, two thermistors composed of heat source, temperature is 478K, and surface temperature closed cavities kept normal temperature.
Project Fund: National Natural Science Foundation of China (60772012); Projects Funded By New Century Excellent Talents (NCET); Open Project funded by Beijing Key Laboratory; Talents Training Project funded by Beijing New Century; Modern Control Technology funded by Ministry of Education Key Laboratory;Science and Technology Common Project of Beijing Municipal Commission of Education(KM201110772020) References [1] Fuxue.Zhang, “Modern piezoelectricity,” [M].
[4] Linhua.Piao, Wei.Zhang, Jinze.Zhang, and Fuxue.Zhang, “Discussion on mechanism of effect of acceleration on gas pendulum tilt sensor,” [J].Journal of Transducer Technology, vol. 23, no. 7, pp.4-7, 2004.
Previous finite element research of air-angle sensor simplified sensitive components to 2d structure, simplified two platinum silk material of thermal resistor to two points of heat source.
Two small cylinders Airtight recessed in a horizontal position representative two thermistors with material of platinum silk, two thermistors composed of heat source, temperature is 478K, and surface temperature closed cavities kept normal temperature.
Project Fund: National Natural Science Foundation of China (60772012); Projects Funded By New Century Excellent Talents (NCET); Open Project funded by Beijing Key Laboratory; Talents Training Project funded by Beijing New Century; Modern Control Technology funded by Ministry of Education Key Laboratory;Science and Technology Common Project of Beijing Municipal Commission of Education(KM201110772020) References [1] Fuxue.Zhang, “Modern piezoelectricity,” [M].
[4] Linhua.Piao, Wei.Zhang, Jinze.Zhang, and Fuxue.Zhang, “Discussion on mechanism of effect of acceleration on gas pendulum tilt sensor,” [J].Journal of Transducer Technology, vol. 23, no. 7, pp.4-7, 2004.
Online since: May 2021
Authors: A.S. Zhukov, V.N. Klimov, A.N. Skvortsova
Magnetic properties of additive materials.
Popovich, Additive technologies as a new way to create promising functional materials, Metal Science and Heat Treatment 775 v.1 (2020) 19-25
Wohlfarth, Handbook of ferromagnetic materials, North-Holland Pub.
[15] Di Wang, Yongqiang Yang, Study on the designing rules and processability of porous structure based on selective laser melting (SLM), Journal of Materials Processing Technology 213 (2013) 1734–1742
Adkins et al., Influence of processing conditions on structure and compressive properties of cellular lattice structures fabricated by selective laser melting, Materials Science & Engineering A628 (2015) 188–197
Popovich, Additive technologies as a new way to create promising functional materials, Metal Science and Heat Treatment 775 v.1 (2020) 19-25
Wohlfarth, Handbook of ferromagnetic materials, North-Holland Pub.
[15] Di Wang, Yongqiang Yang, Study on the designing rules and processability of porous structure based on selective laser melting (SLM), Journal of Materials Processing Technology 213 (2013) 1734–1742
Adkins et al., Influence of processing conditions on structure and compressive properties of cellular lattice structures fabricated by selective laser melting, Materials Science & Engineering A628 (2015) 188–197
Online since: February 2011
Authors: Lin Liang Yin, Sheng Tao Zhang, Guang Hui Zhang, Xiao Li
Khosroshahi, Journal of Solid State Electrochemistry 14 (2010) 1317-1324
Wu, Corrosion Science 52 (2010) 3126-3132
Baorong, Corrosion Science (2009) 2588-2595
Hosseini, Materials Chemistry and Physics 109 (2008) 281-286
Zheng, Corrosion Science 51 (2009) 761-768
Wu, Corrosion Science 52 (2010) 3126-3132
Baorong, Corrosion Science (2009) 2588-2595
Hosseini, Materials Chemistry and Physics 109 (2008) 281-286
Zheng, Corrosion Science 51 (2009) 761-768
Online since: September 2005
Authors: Paul van Houtte, Albert Van Bael, Laurent Delannay, Marc Seefeldt
For plastically incompressible materials, the range for p is from 1 to 5.
In future, similar models will be developed for other materials.
Conf. on Textures of Materials, J.S.
Conf. on Textures of Materials, J.S.
Teodosiu: Proc. 13 th Risø International Symposium on Materials Science (1992), p. 125
In future, similar models will be developed for other materials.
Conf. on Textures of Materials, J.S.
Conf. on Textures of Materials, J.S.
Teodosiu: Proc. 13 th Risø International Symposium on Materials Science (1992), p. 125