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Online since: April 2016
Authors: Qing Yi Liu, Chang Ping Wei, Li Dan Dong, Feng Ming Wang, Jing Li, Shuang Sun
Materials and Preparation
Raw Material.
The Performance Analysis of theSample The Sample of different Raw Materials Ratio had Effect on Clotting, Hemostatic Capability.
Fig. 3 The clotting capability test of the sample of different raw materials ratio Fig.4 The hemostatic performance test of the sample of different raw materials ratio m1:the weight of chitosan m2:the weight of baicalin Fig.3 and Fig.4 showed that with the increase of the quality ratio of chitosan and baicalin the effect of coagulation and hemostasis was gradually enhanced, but the effect of coagulation and hemostasis was enhanced more slowly when the quality ratio exceeded 1:0.8, so the best quality ratio of chitosan and baicalin was 1:0.8.
[4] I.Y.Kim, L.Eichel and R.Edwards: Journal of Endourology, Vol.21(2007)No.6,p.652
[11] R.S.Xu:Chemistry of Natural Product(science press,China,1993),p.588.
The Performance Analysis of theSample The Sample of different Raw Materials Ratio had Effect on Clotting, Hemostatic Capability.
Fig. 3 The clotting capability test of the sample of different raw materials ratio Fig.4 The hemostatic performance test of the sample of different raw materials ratio m1:the weight of chitosan m2:the weight of baicalin Fig.3 and Fig.4 showed that with the increase of the quality ratio of chitosan and baicalin the effect of coagulation and hemostasis was gradually enhanced, but the effect of coagulation and hemostasis was enhanced more slowly when the quality ratio exceeded 1:0.8, so the best quality ratio of chitosan and baicalin was 1:0.8.
[4] I.Y.Kim, L.Eichel and R.Edwards: Journal of Endourology, Vol.21(2007)No.6,p.652
[11] R.S.Xu:Chemistry of Natural Product(science press,China,1993),p.588.
Online since: May 2012
Authors: Xu Chuan Liu, Zi Hong Guo, Bin Teng, Zu Yin Zou, Zhan Yuan Zhu, You Mo
Slip-line field theory has not only been used in study of materials and forging, but also in geotechnical and structural engineering, material reinforcement and other fields[1-4].
Pater: Journal of Materials Processing Technology, (2004), p. 729-735 [2] I.A.
Chattopadhyay, et al: International Journal of Solids and Structures, Vol. 45 (2008), p. 6416-6435 [3] Xiaoliang Jin, Yusuf Altintas: Journal of Materials Processing Technology, 2011, 339-355 [4] S.
Cornec: International Journal of Solids and Structures, Vol. 37 (2000), p. 5385-5411 [5] Zhang Guoxiang,Liu Baochen: China Civil Engineering Journal.
Vol. 19 (2000), p. 994-996 [7] LI Kai, CHEN Guo-rong: Journal of Hohai University(Natural Sciences), Vol. 38 (2010), p. 191-195 [8] KONG Wei-xue, DENG Chu-jian, RUI Yong-qin, et al: Journal of Northeastern University(Natural Science), Vol. 28 (2007), p. 430-433 [9] Zhu Yiwen,Wu Chunqiu,Cai Yuanqi: Chinese Journal of Rock Mechanics And Engineering.
Pater: Journal of Materials Processing Technology, (2004), p. 729-735 [2] I.A.
Chattopadhyay, et al: International Journal of Solids and Structures, Vol. 45 (2008), p. 6416-6435 [3] Xiaoliang Jin, Yusuf Altintas: Journal of Materials Processing Technology, 2011, 339-355 [4] S.
Cornec: International Journal of Solids and Structures, Vol. 37 (2000), p. 5385-5411 [5] Zhang Guoxiang,Liu Baochen: China Civil Engineering Journal.
Vol. 19 (2000), p. 994-996 [7] LI Kai, CHEN Guo-rong: Journal of Hohai University(Natural Sciences), Vol. 38 (2010), p. 191-195 [8] KONG Wei-xue, DENG Chu-jian, RUI Yong-qin, et al: Journal of Northeastern University(Natural Science), Vol. 28 (2007), p. 430-433 [9] Zhu Yiwen,Wu Chunqiu,Cai Yuanqi: Chinese Journal of Rock Mechanics And Engineering.
Online since: June 2012
Authors: Jian Tao Liu, Tian Du
Cui: International journal of fatigue, 2008, 30(1):2-10
Qu: International journal of fracture, 2005, 131(4): 337-349
Zhang: Science China: technological sciences, 2012, 55(3): 673-683
Saffari and R.Tabatabaei: American journal of applied sciences, 2007, 4: 357-361
Sih: Journal of basic engineering, 1963, 85: 519-525
Qu: International journal of fracture, 2005, 131(4): 337-349
Zhang: Science China: technological sciences, 2012, 55(3): 673-683
Saffari and R.Tabatabaei: American journal of applied sciences, 2007, 4: 357-361
Sih: Journal of basic engineering, 1963, 85: 519-525
Online since: October 2015
Authors: Jiří Vala, Petra Jarošová
Consequently the thermal design of such buildings, utilizing advanced materials, structures and technologies, requires more proper analysis of relevant physical processes than classical evaluations of thermal resistance from the one-dimensional stationary heat conduction.
Design of low-energy buildings by [11] forces advanced structures and materials for both constructive and insulation layers, as well as non-traditional technologies, namely air-to-air heat exchangers, instead of natural ventilation.
Ghavami, Simulation analysis of passive solar structures using heat transfer equations, ARPN Journal of Engineering and Applied Sciences 5 (2010) 41-45
Schrefler, Modeling cementitious materials as multiphase porous media, Acta Mechanica 201 (2008) 313-339
Buddhi: Review on thermal energy storage with phase change materials and applications, Renewable and Sustainable Energy Reviews 13 (2009) 318-345
Design of low-energy buildings by [11] forces advanced structures and materials for both constructive and insulation layers, as well as non-traditional technologies, namely air-to-air heat exchangers, instead of natural ventilation.
Ghavami, Simulation analysis of passive solar structures using heat transfer equations, ARPN Journal of Engineering and Applied Sciences 5 (2010) 41-45
Schrefler, Modeling cementitious materials as multiphase porous media, Acta Mechanica 201 (2008) 313-339
Buddhi: Review on thermal energy storage with phase change materials and applications, Renewable and Sustainable Energy Reviews 13 (2009) 318-345
Online since: May 2011
Authors: Hui Ren Hu, Zheng Jian Zhang
China
2Tianjin Key Laboratory of Pulp & Paper, College of Material Science and Chemical Engineering Tianjin University of Science and Technology Tianjin, 300457, P.R.
Introduction In order to meet the raw materials need, more and more fast growing timbers such as Masson Pine, Larch and Simao Pine are used by the industry now [1].
Experimental Materials.
Journal of Applied Polymer Science Vol. 8 (1964), p. 1325-1341 [8] Kataoka Y., Kondo T.
Journal of Polymer Science Vol. 37 (1959), p. 385-395 [10] Blackwel J., Vasko P.D., Koenig J.L.
Introduction In order to meet the raw materials need, more and more fast growing timbers such as Masson Pine, Larch and Simao Pine are used by the industry now [1].
Experimental Materials.
Journal of Applied Polymer Science Vol. 8 (1964), p. 1325-1341 [8] Kataoka Y., Kondo T.
Journal of Polymer Science Vol. 37 (1959), p. 385-395 [10] Blackwel J., Vasko P.D., Koenig J.L.
Online since: July 2018
Authors: Wei Wei, Marina M. Abramova, Elena Sarkeeva
Marx, 450000 Ufa, Russia
2School of Materials Science and Engineering, Changzhou University, 1 Gehu Road, Changzhou 213164, P.R .China
3Jiangsu Key Laboratory of Materials Surface Science and Technology, Changzhou University, Changzhou 213164, P.R.
[5]Valiev RZ, Alexandrov IV (2007) Bulk nanostructured metal materials: preparation, structure and properties.
Sarkeeva, Kun Xia Wei, Wei Wei, Journal of Materials Engineering and Performance October 2016, Volume 25, Issue 10, pp 4303–4309
Alexandrov, Jing Hu, Materials Science and Engineering A, 2011, 528: 1478-1484
Meng, Journal of Alloys and Compounds, 509 (2011) 4092-4097
[5]Valiev RZ, Alexandrov IV (2007) Bulk nanostructured metal materials: preparation, structure and properties.
Sarkeeva, Kun Xia Wei, Wei Wei, Journal of Materials Engineering and Performance October 2016, Volume 25, Issue 10, pp 4303–4309
Alexandrov, Jing Hu, Materials Science and Engineering A, 2011, 528: 1478-1484
Meng, Journal of Alloys and Compounds, 509 (2011) 4092-4097
Online since: April 2011
Authors: Marek Kostecki, Andrzej Roman Olszyna
Levi: Current Opinion in Solid State and Materials Science Vol. 8 (2004), 77
].
Therefore we should seek new materials with still better properties but, for the time being, search for possible alternative materials is most often centered on various modifications of zirconium oxide [.
Osendi: Journal of the American Ceramic Society Vol. 85 (2002), p. 3031 ], which merely confirms the unique properties of this material.
Wada: Journal of Materials Science Vol. 35 (2000), p. 317 ] and electron beam physical vapor deposition (EB-PVD) [.
The starting materials and the technology were described in detail in our earlier paper [.
Therefore we should seek new materials with still better properties but, for the time being, search for possible alternative materials is most often centered on various modifications of zirconium oxide [.
Osendi: Journal of the American Ceramic Society Vol. 85 (2002), p. 3031 ], which merely confirms the unique properties of this material.
Wada: Journal of Materials Science Vol. 35 (2000), p. 317 ] and electron beam physical vapor deposition (EB-PVD) [.
The starting materials and the technology were described in detail in our earlier paper [.
Online since: November 2025
Authors: Nnabuike Ezukwoke, Edmund Nnabueze Ajimah, Edward Chukwudi Anoliefo, Jonas Nnaemeka Onah, Mkpamdi Eke
The CZTS uses materials that are abundant and cheaper to produce than CIGS, CIS, CdTe, and silicon solar cells.
Mar, “Materials for Photovoltaics: State of Art and Recent Developments,” International Journal of Molecular Sciences Review, Int.
Hoque, “Investigation of Different Materials as Buffer Layer in CZTS Solar Cells Using SCAPS,” Journal of Clean Energy Technologies, doi:10.18178/jocet.2018.6.4.477, vol. 6, No. 4, July 2018
Mahalakshmi et al, “Deposition of quaternary Cu2ZnSnS4 (CZTS) thin film by chemical bath deposition method for solar cell application,” Journal of Optoelectronics and Advanced Materials Vol. 22, No. 11-12, November –December 2020, p. 619 – 622
Mukhopadhyay et al, “Deposition of quaternary Cu2ZnSnS4 (CZTS) thin film by chemical bath deposition method for solar cell application,” Journal of Optoelectronics and Advanced Materials vol. 22, no. 11-12, November – December 2020, p. 619 – 622
Mar, “Materials for Photovoltaics: State of Art and Recent Developments,” International Journal of Molecular Sciences Review, Int.
Hoque, “Investigation of Different Materials as Buffer Layer in CZTS Solar Cells Using SCAPS,” Journal of Clean Energy Technologies, doi:10.18178/jocet.2018.6.4.477, vol. 6, No. 4, July 2018
Mahalakshmi et al, “Deposition of quaternary Cu2ZnSnS4 (CZTS) thin film by chemical bath deposition method for solar cell application,” Journal of Optoelectronics and Advanced Materials Vol. 22, No. 11-12, November –December 2020, p. 619 – 622
Mukhopadhyay et al, “Deposition of quaternary Cu2ZnSnS4 (CZTS) thin film by chemical bath deposition method for solar cell application,” Journal of Optoelectronics and Advanced Materials vol. 22, no. 11-12, November – December 2020, p. 619 – 622
Online since: January 2013
Authors: Min Luo, Xue Chuan Wang, Tao Tao Qiang, Qiao Qiao Bu
CF is an abundant natural biomass consisting of animal skin, which has been traditionally used as raw materials in leather industry.
Experimental Main materials and instruments.
Wang, L.P Wu, Absorption of anionic dyes on the Chitin, Journal of BeiHua university(Natural Science). 10 (2009) 490-493
Zhuo, Kinetic and thermodynamic studies on the adsorption of acid dyes with chitosan-montmorillonite hybrid materials, Ion exchange and adsorption. 27 (2011) 129-136
Shi, Adsorption of Dyes on Zr(Ⅳ)-loaded CF from Aqueous Solution, Journal of basic science and engineering. 3 (2007) 414-422
Experimental Main materials and instruments.
Wang, L.P Wu, Absorption of anionic dyes on the Chitin, Journal of BeiHua university(Natural Science). 10 (2009) 490-493
Zhuo, Kinetic and thermodynamic studies on the adsorption of acid dyes with chitosan-montmorillonite hybrid materials, Ion exchange and adsorption. 27 (2011) 129-136
Shi, Adsorption of Dyes on Zr(Ⅳ)-loaded CF from Aqueous Solution, Journal of basic science and engineering. 3 (2007) 414-422
Online since: October 2007
Authors: Zheng Yi Fu, Jin Yong Zhang, Qing Jie Zhang, K. Wang, H. Wang, Wei Min Wang, Yu Cheng Wang
With the increase of particle size of the raw materials, combustion
temperature and propagating rate will both reduce.
Tamburini: Materials Science Reports, 3 (1989), pp. 277 [2] J.
Tédenac: Materials Research Bulletin, 35 (2000), pp. 233 [6] Z.Y.
Munir: Journal of Materials Science. 21 (1986), pp. 251 [11] A.
Merzhanov: in Combustion and Plasma Synthesis of High-temperature Materials, edited by Z.
Tamburini: Materials Science Reports, 3 (1989), pp. 277 [2] J.
Tédenac: Materials Research Bulletin, 35 (2000), pp. 233 [6] Z.Y.
Munir: Journal of Materials Science. 21 (1986), pp. 251 [11] A.
Merzhanov: in Combustion and Plasma Synthesis of High-temperature Materials, edited by Z.