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Online since: August 2004
Authors: Young Soo Han, Se Young Jeoung, Shin Ae Kim, Chang Hee Lee, Chae Ryong Cho, Sung Kyu Kim
The first
requirement for a choice of a monochromator materials is that the coherent elastic cross section
should be large compared with all the other contributions for the total cross section from the
incoherent and inelastic scattering processes and absorption by nuclear capture.
The materials of mosaic crystals are often used as metal material, because the metallic crystals give intensities being two to three times larger than those of halides.
Acknowledgments This work has been supported by the Korea Ministry of Science and Technology through the Nuclear Research and Development Program.
The Cu single crystals used for this study was supplied from the Crystal Bank supported by the Korea Science and Engineering Foundation.
Bar-Ziv, Journal of Neutron Research Vol. 2 (1994) p. 85
The materials of mosaic crystals are often used as metal material, because the metallic crystals give intensities being two to three times larger than those of halides.
Acknowledgments This work has been supported by the Korea Ministry of Science and Technology through the Nuclear Research and Development Program.
The Cu single crystals used for this study was supplied from the Crystal Bank supported by the Korea Science and Engineering Foundation.
Bar-Ziv, Journal of Neutron Research Vol. 2 (1994) p. 85
Online since: June 2014
Authors: En Dao Xu, Zhen Jie Zhang, Zhi Ping Chen, Jia Lei Jin, Cun Jun He, Ju Yong Zhang
Volume fraction equals the ratio of the volume of certain material and the mixture’s total volume, in the formula (1), , are the volume fraction of water and Fe in the mixture respectively.
For the mixture which contains two kinds of material[3], the mathematical formula of relative dielectric constant is: When the Fe and water in the iron ore concentrate are mixed according to the mass, the relative dielectric constant is: (4) Where is the ratio of the mass of water and Fe, similarly, we can obtain the dielectric constant of iron ore concentrate ()when the ,,, is known.
As mentioned above, when processing the powder, regarding the Carla powder as mixture which only contains Fe and water, other material is neglected.
Acknowledgement It is a project supported by the Natural Science Foundation of Zhejiang Province(Y1090921)and Science and Technology Project of Zhejiang Province(Y200804882).The corresponding author is Zhiping Chen.Zhiping Chen, Male, professor and doctor,research direction: electromechanical engineering, precision instrument and machinery.
[3]Jianle Cai, Chuliang Qiao, Wenjie Jiang.The cubic root of mixture dielectric constant transformation law and its relativity[J].Journal of hebei university (natural science edition).1999(02): 32-34, 46
For the mixture which contains two kinds of material[3], the mathematical formula of relative dielectric constant is: When the Fe and water in the iron ore concentrate are mixed according to the mass, the relative dielectric constant is: (4) Where is the ratio of the mass of water and Fe, similarly, we can obtain the dielectric constant of iron ore concentrate ()when the ,,, is known.
As mentioned above, when processing the powder, regarding the Carla powder as mixture which only contains Fe and water, other material is neglected.
Acknowledgement It is a project supported by the Natural Science Foundation of Zhejiang Province(Y1090921)and Science and Technology Project of Zhejiang Province(Y200804882).The corresponding author is Zhiping Chen.Zhiping Chen, Male, professor and doctor,research direction: electromechanical engineering, precision instrument and machinery.
[3]Jianle Cai, Chuliang Qiao, Wenjie Jiang.The cubic root of mixture dielectric constant transformation law and its relativity[J].Journal of hebei university (natural science edition).1999(02): 32-34, 46
Online since: October 2010
Authors: Chun Tao Liu, Xiang Mei Li, Bo Wang, Zhong Ming Ren, Jie Yu Zhang
Effect of Simulation Conditions on Grain Selection during Solidification of Single Crystal Casting
Chuntao Liu1, a, Xiangmei Li 1,b, Bo Wang1,2,c, Zhongming Ren1,d and
Jieyu Zhang1,e
1Shanghai key lab. of modern metallurgy & material processing, Shanghai University, Shanghai 200072, China
2Inner Mongolia University of Science and Technology, Baotou, 014010, China
achuntao_liu@yahoo.cn, bjoe_li@163.com, cwangbo1974@shu.edu.cn, dzmren@mail.shu.edu.cn, ezjy6162@staff.shu.edu.cn
Keywords: Directional solidification, Boundary conditions, Modelling, Grain selection
Abstract.
SHUCX102251) and the research fund from the Science and Technology Committee of Shanghai (No. 08BZ1130100).
Materials Science and Engineering.
International Journal of Cast Metals Research.
The Minerals,Metals&Materials Society, (2008), p. 367 [8] H.J.
SHUCX102251) and the research fund from the Science and Technology Committee of Shanghai (No. 08BZ1130100).
Materials Science and Engineering.
International Journal of Cast Metals Research.
The Minerals,Metals&Materials Society, (2008), p. 367 [8] H.J.
Online since: February 2017
Authors: Tamás Tábi, Sándor Hajba
Acknowledgements
This paper was supported by the János Bolyai Research Scholarship of the Hungarian Academy of Sciences.
Journal of Polymers and the Environment, 9, 63-84 (2001)
Materials Chemistry and Physics, 129, 823-831 (2011)
Xu: Dynamically Vulcanized Biobased Polylactide/Natural Rubber Blend Material with Continuous Cross-Linked Rubber Phase.
Chen: Crosslinked bicontinuous biobased polylactide/natural rubber materials: Super toughness, “net-like”-structure of NR phase and excellent interfacial adhesion.
Journal of Polymers and the Environment, 9, 63-84 (2001)
Materials Chemistry and Physics, 129, 823-831 (2011)
Xu: Dynamically Vulcanized Biobased Polylactide/Natural Rubber Blend Material with Continuous Cross-Linked Rubber Phase.
Chen: Crosslinked bicontinuous biobased polylactide/natural rubber materials: Super toughness, “net-like”-structure of NR phase and excellent interfacial adhesion.
Online since: December 2012
Authors: Xiakeer Saitaer
The use of atlas silk as dress material is the favorite for Xinjiang ethnic women, especially Uyghur women.
Manual tie-dyed atlas silk may be further classified into natural atlas silk, pure atlas silk, intermingled atlas silk and chemical fiber atlas in terms of raw material and dyeing and printing process.
It is classified into pure atlas silk, intermingled atlas silk and chemical fiber atlas in terms of raw material.
The raw material and extracting method of the dye are natural.
Journal of Xinjiang University (Natural Science Edition).
Manual tie-dyed atlas silk may be further classified into natural atlas silk, pure atlas silk, intermingled atlas silk and chemical fiber atlas in terms of raw material and dyeing and printing process.
It is classified into pure atlas silk, intermingled atlas silk and chemical fiber atlas in terms of raw material.
The raw material and extracting method of the dye are natural.
Journal of Xinjiang University (Natural Science Edition).
Online since: October 2011
Authors: Qi Xing Zhou, Chun Chen
Materials and Methods
A.
Journal of Chromatography A 2002, Vol. 963, no. (1-2), pp.277-285
Science of the Total Environment 2006, 363(1-3):149-165
Journal of Soils and Sediments 2006, 6(4):231-235
European Journal of Soil Biology 2007, 43:S233-S238
Journal of Chromatography A 2002, Vol. 963, no. (1-2), pp.277-285
Science of the Total Environment 2006, 363(1-3):149-165
Journal of Soils and Sediments 2006, 6(4):231-235
European Journal of Soil Biology 2007, 43:S233-S238
Online since: November 2013
Authors: Ming Zhong Tian, Si Wen Liu, Xiao Lu Fan
Fig.1 Geological map of the Alxa region
Data and Methods
The research materials of the Badain Jaran Desert lakes include image data ETM+ (Enhanced Thematic Mapper Plus), the GDEM data, 1:50000 paper topographic map, geological map and the geomorphological map (provided by Alxa Desert World Geopark Authority), Google Earth data, and geological surveys in the field.
Li: Journal of Desert Research, Vol. 32 (2012) No.4, p.1163-1168
Panizza.: Chinese Science Bulletin, Vol. 46(supplement 1) (2001), p.4-5
Ha: Journal of Desert Research, Vol.19 (1999) No.3, p.13-16
Cheng: Journal of Changchun University of Science and Technology, Vol. 29 (1999) No.4, p.324-329
Li: Journal of Desert Research, Vol. 32 (2012) No.4, p.1163-1168
Panizza.: Chinese Science Bulletin, Vol. 46(supplement 1) (2001), p.4-5
Ha: Journal of Desert Research, Vol.19 (1999) No.3, p.13-16
Cheng: Journal of Changchun University of Science and Technology, Vol. 29 (1999) No.4, p.324-329
Online since: December 2012
Authors: Ping Zhou, Xin Zhang, Dan Wei, Zhi Yong Liu
Material and Methods
Study area.
Zhang, Analysis of spatial characteristics of soil erosion in mountain areas of northwestern Yunnan based on GIS and RUSLE, Journal of Mountain Science. 25(2007) 548-556.
Burch, Physical Basis of the Length-Slope Factor in the Universal Soil Loss Equation, Soil Science Society of America Journal. 50 (1986) 1294-1298
Zachar, Soil Erosion—Development in Soil Science VEDA Publication, Bratislava, 1982.
House of the Slovak Academy of Sciences
Zhang, Analysis of spatial characteristics of soil erosion in mountain areas of northwestern Yunnan based on GIS and RUSLE, Journal of Mountain Science. 25(2007) 548-556.
Burch, Physical Basis of the Length-Slope Factor in the Universal Soil Loss Equation, Soil Science Society of America Journal. 50 (1986) 1294-1298
Zachar, Soil Erosion—Development in Soil Science VEDA Publication, Bratislava, 1982.
House of the Slovak Academy of Sciences
Online since: June 2015
Authors: Zheng Gang He, Sha Liu
Management Science vol.6 (1959), p.80-91
Transportation Science vol.45 (2011), p.364-380
Processing of the Second International Conferences on Intelligent Processing and Manufacturing of Materials, 1999, p. 1109-1113
European Journal of Operational Research, vol.59 (1993), p.345-358
Journal of Jiangnan University (Nature Science Edition) vol.12 (2012), p.677-681.
Transportation Science vol.45 (2011), p.364-380
Processing of the Second International Conferences on Intelligent Processing and Manufacturing of Materials, 1999, p. 1109-1113
European Journal of Operational Research, vol.59 (1993), p.345-358
Journal of Jiangnan University (Nature Science Edition) vol.12 (2012), p.677-681.
Online since: September 2008
Authors: Seung Bok Choi, Kum Gil Sung
Acknowledgement
This work was supported by Korea Science and Engineering Foundation (Acceleration Research
Project No.
StClair, "Commercial magneto-rheological fluid devices", International Journal of Modern Physics B 10, 2857-2865 (1996)
Carlson, "Phenomenological model for a magnetorheological damper", Journal of Engineering Mechanics ASCE 123, 230-238 (1997)
Choi," Control and response characteristics of a magnetorheological fluid damper for passenger vehicles", Journal of Intelligent Material Systems and Structures 11, 80-87 (2000)
Choi, "Geometric Optimization of Controllable Magnetorheological Shock Absorber for Commercial Passenger Vehicle", Proceedings of the SPIE's 11th Annual Symposium on Smart Structures and Materials, 9-13 March, 2008, San Diego, California.
StClair, "Commercial magneto-rheological fluid devices", International Journal of Modern Physics B 10, 2857-2865 (1996)
Carlson, "Phenomenological model for a magnetorheological damper", Journal of Engineering Mechanics ASCE 123, 230-238 (1997)
Choi," Control and response characteristics of a magnetorheological fluid damper for passenger vehicles", Journal of Intelligent Material Systems and Structures 11, 80-87 (2000)
Choi, "Geometric Optimization of Controllable Magnetorheological Shock Absorber for Commercial Passenger Vehicle", Proceedings of the SPIE's 11th Annual Symposium on Smart Structures and Materials, 9-13 March, 2008, San Diego, California.