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Online since: May 2012
Authors: Lan Qiao, Yuan Li, Lin Xiang Pang
The materials of the dam are composed by a variety of media that have irregular geometric and complex physical properties.
Fig 1, The standard section of Lana Calculation Method and Calculation Parameters Modeling.The model reflects the system's geometry, materials, force and other characteristics.
Table 1.All calculated parameters of dam materials No.
References [1]G.Y.Li,L.S.Wang,Z.K.Mi:Research on stress-strain behavior of soil core rock-fill dam.Chinese Journal of Rock Mechanics and Engineering.Vol.23(2004),p.1363[in Chinese] [2]Y.J Qian, S.S Chen:Verification of numerical simulation results of stress and deformation of core-wall dams.HYDRO-SCIENCE AND ENGINEERING.
International Journal for Numerical and Analytical Methods in Geomechanics.
Fig 1, The standard section of Lana Calculation Method and Calculation Parameters Modeling.The model reflects the system's geometry, materials, force and other characteristics.
Table 1.All calculated parameters of dam materials No.
References [1]G.Y.Li,L.S.Wang,Z.K.Mi:Research on stress-strain behavior of soil core rock-fill dam.Chinese Journal of Rock Mechanics and Engineering.Vol.23(2004),p.1363[in Chinese] [2]Y.J Qian, S.S Chen:Verification of numerical simulation results of stress and deformation of core-wall dams.HYDRO-SCIENCE AND ENGINEERING.
International Journal for Numerical and Analytical Methods in Geomechanics.
Online since: October 2011
Authors: Can Wang, Xian Jin Ning, Yan Bo Liu, Xian Kai Sun, Quan Sheng Wang
Preparation and properties of Sm2Zr2O7 ceramics for thermal barrier coatings by APS
Xiankai Sun1,a, Quansheng Wang1,b, Yanbo Liu2,c, Xianjin Ning2,c,Can wang3,d
1School of Materials Science and Engineering, Beijing Institute of Technology, Surface Engineering Laboratory, Beijing 100081, China
2School of Materials Science and Engineering, Beijing Institute of Technology, Surface Engineering Laboratory, Beijing 100081, China
3School of Materials Science and Engineering, Beijing Institute of Technology, Surface Engineering Laboratory, Beijing 100081, China
asunxiankai2008@163.com, bqsh-wang@bit.edu.cn, clyb197896@bit.edu.cn, dnxj@bit.edu.cn
ewangcan1105@126.com
Keywords: rare-earth zirconates, atmospheric plasma spraying, thermal barrier coating (TBC), thermal shock resistance
Abstract.
Stover: Proceedings of the 6th liege Conference on "Materials for Advanced Power Engineering. (1998). p. 1627 [4] W.
Ralyos: Current Opinion in Solid State and Materials Science. 8 (2004), p. 77 [7] D.
Xu.: Materials Letters. 59(2005), p. 2804 [9] G.
Srirama: Journal of Nuclear Materials. 249 (1999), p.259 [10] R.
Stover: Proceedings of the 6th liege Conference on "Materials for Advanced Power Engineering. (1998). p. 1627 [4] W.
Ralyos: Current Opinion in Solid State and Materials Science. 8 (2004), p. 77 [7] D.
Xu.: Materials Letters. 59(2005), p. 2804 [9] G.
Srirama: Journal of Nuclear Materials. 249 (1999), p.259 [10] R.
Online since: June 2012
Authors: Yan Xiao, R.Z. Yang
Journal of Wood Science, 2002, 48(2): 138-146
Journal of Wood Science, 2007, 53(3): 204-210
Journal of Wood Science, 51(6): 559-565
Journal of Materials in Civil Engineering, 1999, 11(4): 345-352
ASCE Journal of Materials in Civil Engineering, 2002, 14(5), 359-365
Journal of Wood Science, 2007, 53(3): 204-210
Journal of Wood Science, 51(6): 559-565
Journal of Materials in Civil Engineering, 1999, 11(4): 345-352
ASCE Journal of Materials in Civil Engineering, 2002, 14(5), 359-365
Online since: March 2011
Authors: Shu Tao Wang, Dong Sheng Wang, Wei Wei Pan
Since there are many fluorescence materials which can be used as the sensitive materials, different fluorescence materials may have different fluorescence launching wavelengths that means different exciting wavelengths.
As a fluorescence optical-fiber temperature sensoring system, the sensitive materials is the key factor which we can adopt the corresponding illuminant, the probe, optical-fiber and fluorescence handling technology based on the sensitive materials.
The main characteristics of fluorescence materials are: exciting spectrum, glowing spectrum and fluorescence life-span.
Exciting spectrum is able to cause the fluorescence which is decided by the absorbing spectrum of fluorescence materials.
Journal of Optoelectronics·Laser. 13,8(2002)
As a fluorescence optical-fiber temperature sensoring system, the sensitive materials is the key factor which we can adopt the corresponding illuminant, the probe, optical-fiber and fluorescence handling technology based on the sensitive materials.
The main characteristics of fluorescence materials are: exciting spectrum, glowing spectrum and fluorescence life-span.
Exciting spectrum is able to cause the fluorescence which is decided by the absorbing spectrum of fluorescence materials.
Journal of Optoelectronics·Laser. 13,8(2002)
Online since: September 2013
Authors: Hong He, Zhu Long, Yong Lv, Lei Dai
Journal of Applied Polymer Science.2008, Vol. 107(2008),p.3598
Polymer materials science and engineering, Vol.25 (2009),p.137
Journal of Biomedical Materials Research Part A, Vol.98 (2011),p.80-87
Journal of the Mechanical Behavior of Biomedical Materials, Vol.4 (2011),p.1206 [8] Tang Yixiang, Sun Wanli, et al.
Journal of Functional Materials, Vol.44(2013),p.124
Polymer materials science and engineering, Vol.25 (2009),p.137
Journal of Biomedical Materials Research Part A, Vol.98 (2011),p.80-87
Journal of the Mechanical Behavior of Biomedical Materials, Vol.4 (2011),p.1206 [8] Tang Yixiang, Sun Wanli, et al.
Journal of Functional Materials, Vol.44(2013),p.124
Online since: July 2017
Authors: Yuan Gang Wang, Meng Hua Wu, Fu Ling Zhao, Xiao Peng Li
Introduction
Recently, there are tremendous industrial needs for engineering materials.
A possible concept to meet this demand is that of functionally gradient materials (FGM).
In general, statistically isotropic materials can be characterized as particles of material I in material II, particles of material II in material I, or an interconnected network of both I and II.
Applied Surface Science. 300(5) (2014)129-140
Chinese Journal of Aeronautics. 22(3) (2009) 339-342
A possible concept to meet this demand is that of functionally gradient materials (FGM).
In general, statistically isotropic materials can be characterized as particles of material I in material II, particles of material II in material I, or an interconnected network of both I and II.
Applied Surface Science. 300(5) (2014)129-140
Chinese Journal of Aeronautics. 22(3) (2009) 339-342
Study on Stabilized of Poly(Vinyl Alcohol) Nanofibers Based Sandwich Structure Purification Material
Online since: June 2012
Authors: Tai Qi Liu, Rui Xue Liu, Na Zhao
Study on Stabilized of Poly (Vinyl Alcohol) Nanofibers Based Sandwich Structure Purification Material
Ruixue Liu1,a, Taiqi Liu2*,b and Na Zhao3,c
1College of Materials Science and Engineering, Beijing University of Chemical Technology, China
2Research Center of Ecomaterial, Beijing Institute of Petrochemical Technology, China
3College of Materials Science and Engineering, Beijing University of Chemical Technology, China
aliuruixue@bipt.edu.cn, bliutaiqi@bipt.edu.cn, czhaona@bipt.edu.cn
Keywords: PVA nanofibers; water stability; crystallinity; purification material with sandwich structure; filtration
Abstract.
Materials.
Fig.1 SEM image of electrospun PVA nanofibers and its diameter distribution Water stability of PVA nanofibers Analysis of DSC.Heating (annealing) can cause the change of the crystallinity of materials [10].
The melting point of materials which affected by the crystallinity, cross-linking degree and decomposition of molecular chain may chance if the crystallinity changes.
Ma, et al: Journal of Membrane Science Vol.281 (2006), p.581-586
Materials.
Fig.1 SEM image of electrospun PVA nanofibers and its diameter distribution Water stability of PVA nanofibers Analysis of DSC.Heating (annealing) can cause the change of the crystallinity of materials [10].
The melting point of materials which affected by the crystallinity, cross-linking degree and decomposition of molecular chain may chance if the crystallinity changes.
Ma, et al: Journal of Membrane Science Vol.281 (2006), p.581-586
Online since: July 2011
Authors: Hong Zhang, Yan Lai Zhang, Ming Long Zhang, Li Jun Li, Chuan Mei Liu, Lei Luo
And it is extensive source material, low cost, and its equipment is simple, so these materials are mainly used in the solar drying system at present.
It is a very active flied of frontier research in the energy and materials science in recent years.
Composite PCM is a stable composite with special function by compounding the PCM and other materials.
It believes that it will be gradually used in various fields with the mature of materials processing technology and the decrease of prices of materials.
[14] Hideo Inaba: International Journal of Thermal Sciences, Vol.39 (9-11) (2000), p.991-1003
It is a very active flied of frontier research in the energy and materials science in recent years.
Composite PCM is a stable composite with special function by compounding the PCM and other materials.
It believes that it will be gradually used in various fields with the mature of materials processing technology and the decrease of prices of materials.
[14] Hideo Inaba: International Journal of Thermal Sciences, Vol.39 (9-11) (2000), p.991-1003
Online since: August 2018
Authors: Lian Fa Yang, Jian Ping Ma, Jian Guo
Key Engineering Materials, 2014, 611-612:643-649
Materials Science & Engineering A, 2016, 657:224-233
Journal of Measurement Science & Instrumentation, 2013,4(2):194-198
High Temperature Materials & Processes, 2016, 35(3):297-307
Computational Materials Science, 2009, 47(2):568-576
Materials Science & Engineering A, 2016, 657:224-233
Journal of Measurement Science & Instrumentation, 2013,4(2):194-198
High Temperature Materials & Processes, 2016, 35(3):297-307
Computational Materials Science, 2009, 47(2):568-576
Online since: July 2016
Authors: Shu Yin, Tsugio Sato, Junichi Matsushita, Tohru Sekino, Naoya Iwamoto, Xiao Ling Wang, Tomoyuki Tsuchiyama, Kazuya Hamaguchi, Jian Feng Yang, Xiao Yong Wu
Anatase Type Titanium Dioxide Prepared by
Oxidation of Titanium Carbide
Jun-ichi Matsushita1,a, Tomoyuki Tsuchiyama1, Kazuya Hamaguchi1,
Naoya Iwamoto1, Xiaoling Wang2, Jianfeng Yang3, Tohru Sekino4,
Xiaoyong Wu5, Shu Yin5, and Tsugio Sato5
1Department of Materials Science, Tokai University, Hiratsuka 259-1292, Japan
2School of Mechanical Engineering, University Science and Technology Beijing, Beijing 100083, China
3School of Materials Science & Engineering, Xi'an Jiaotong University, Xi'an 710049, China
4The Institute of Scientific and Industrial Research, Osaka University, Osaka 567-0041, Japan
5Institute of Multidisciplinary Research for Advanced Materials, Tohoku University, Sendai 980-8577, Japan
aemail: matsushita@tsc.u-tokai.ac.jp
Keywords: TiC, TiO2, Anatase, Photocatalyst
Abstract.
Sato, Journal of Materials Chemistry, 15, 674-682 (2005)
Yang, Materials Letters, 60, 693-697 (2006)
Matsushita, Journal of Materials Science & Technology, 24, 102-104 (2007)
Matsushita, Materials Science Forum, 761, 125-129 (2013).
Sato, Journal of Materials Chemistry, 15, 674-682 (2005)
Yang, Materials Letters, 60, 693-697 (2006)
Matsushita, Journal of Materials Science & Technology, 24, 102-104 (2007)
Matsushita, Materials Science Forum, 761, 125-129 (2013).