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Online since: September 2024
Authors: Samitthichai Seeyangnok, Siriporn Pranee, Chanikan Sonklin, Cherdchai Laongtiparos, Nisalak Trongsiriwat, Nuttacha Boonkert
Materials and Methods
Materials.
Seeyangnok, in Materials Science Forum, 2020, vol. 990 MSF, pp. 86-90
Wootitunthipong, in Materials Science Forum, 2020, vol. 990 MSF, pp. 111-116
Seeyangnok, Journal of Dispersion Science and Technology, Article 2023
Jay, Journal of Chromatography A, vol. 1143, no. 1-2, pp. 227-233, 2007
Seeyangnok, in Materials Science Forum, 2020, vol. 990 MSF, pp. 86-90
Wootitunthipong, in Materials Science Forum, 2020, vol. 990 MSF, pp. 111-116
Seeyangnok, Journal of Dispersion Science and Technology, Article 2023
Jay, Journal of Chromatography A, vol. 1143, no. 1-2, pp. 227-233, 2007
Online since: February 2012
Authors: Yasir Nawab, Nicolas Boyard, Pascal Casari, Vincent Sobotka, Frederic Jacquemin
Hyer, Some Observations on the Cured Shape of Thin Unsymmetric Laminates, Journal of Composite Materials, 15 (1981) 175-194
Warnet, Thermally-Induced Shapes of Unsymmetric Laminates, Journal of Composite Materials, 30 (1996) 603-626
Gillespie, Process-Induced Stress and Deformation in Thick-Section Thermoset Composite Laminates, Journal of Composite Materials, 26 (1992) 626-660
Chatel, Material characterization and residual stresses simulation during the manufacturing process of epoxy matrix composites, Composites Part A: Applied Science and Manufacturing, 41 (2010) 108-115
Mathematical and Physical Sciences, 241 (1957) 376-396.
Warnet, Thermally-Induced Shapes of Unsymmetric Laminates, Journal of Composite Materials, 30 (1996) 603-626
Gillespie, Process-Induced Stress and Deformation in Thick-Section Thermoset Composite Laminates, Journal of Composite Materials, 26 (1992) 626-660
Chatel, Material characterization and residual stresses simulation during the manufacturing process of epoxy matrix composites, Composites Part A: Applied Science and Manufacturing, 41 (2010) 108-115
Mathematical and Physical Sciences, 241 (1957) 376-396.
Online since: June 2008
Authors: Ya Qin Huang, Lu Jun Sun, Ai Hua He, Qin Qin Wang, Charles C. Han
Han2,e
1
College of Material Science and Engineering, Beijing University of Chemical Technology, Beijing
100029, China
2
State Key Laboratory of polymer Physics and Chemistry, Joint Laboratory of Polymer Science and
Materials, Beijing National Laboratory for Molecular Sciences, Institute of Chemistry, Chinese
Academy of Sciences, Beijing 100190, China.
Now most of the materials used for bone repair and replacement are HA based materials [2].
Materials and experiments Materials.
Yang: submitted to Materials Research Bulletin (2007)
Fathi: submitted to Materials Letters (2007)
Now most of the materials used for bone repair and replacement are HA based materials [2].
Materials and experiments Materials.
Yang: submitted to Materials Research Bulletin (2007)
Fathi: submitted to Materials Letters (2007)
Online since: June 2012
Authors: Shao Yan, Ling Zeng, Hui Zuo, Jia Hua Li
Using New-type Composite Silicate Heat-insulation Material to Improve Residential Energy Efficiency in Regions of Cold Winter and Hot Summer
Shao yan, zeng ling, zuohui, Li jiahua
Southwest University of Science and Technology, MianYang, China
798921600@qq.com
Key words: FHP-Vc inorganic composite silicate heat-insulating board energy saving residential building
Abstract: This article introduces the method of the building enclosure construction of energy saving residential buildings based on the FHP-Vc inorganic composite silicate heat-insulating board and its practical effect in projects.
1 Comprehensive Performance of FHP-Vc Inorganic Composite Silicate Heat-insulating Board
FHP-Vc inorganic composite silicate heat-insulating board is a new type of composite silicate teat-insulation material for walls developed by Southwest University of Science and Technology and Daren Corp.
Using light silicate material as the main raw materials, it is a new type of closed-cell mesh rigid porous energy-saving wall material formed by composite foam using scientific formula (Figure 1).
Types and standards of FHP-Vc board Product Code Specifications Model (㎜×㎜×㎜) Remark FV-A25 250×250×25 For Walls FV-A30 250×250×30 FV-A40 500×500×40 For Floor FV-A50 500×500×50 The technical performance indicates that FHP-Vc board has good thermal insulating properties and fine compressive, flexural and freeze resistance as it is of the same material as the base material and integrates naturally with the structural material, sharing a synchronized aging period.
The surface is porous, making it convenient to paste with cement mortar rather than special adhesives in the construction and the good combination with the structure of base level, providing an effective solution to the problem of insulation material which is easy to fall off or hollow.
Journal of Southwest University of science and technology ,2004.4.
Using light silicate material as the main raw materials, it is a new type of closed-cell mesh rigid porous energy-saving wall material formed by composite foam using scientific formula (Figure 1).
Types and standards of FHP-Vc board Product Code Specifications Model (㎜×㎜×㎜) Remark FV-A25 250×250×25 For Walls FV-A30 250×250×30 FV-A40 500×500×40 For Floor FV-A50 500×500×50 The technical performance indicates that FHP-Vc board has good thermal insulating properties and fine compressive, flexural and freeze resistance as it is of the same material as the base material and integrates naturally with the structural material, sharing a synchronized aging period.
The surface is porous, making it convenient to paste with cement mortar rather than special adhesives in the construction and the good combination with the structure of base level, providing an effective solution to the problem of insulation material which is easy to fall off or hollow.
Journal of Southwest University of science and technology ,2004.4.
Online since: February 2011
Authors: Hai Zhou, Chen Fei, Dong Mei Zeng, Wan Qi Jie, Ying Ge Yang
Effect of Film Thickness on the Structural and Physical Properties of Cdznte Thin Films
Dongmei Zeng1,2,a, Wanqi Jie2,b, Hai Zhou1,c, Yingge Yang1,d and Fei Chen1,e
1Department of Materials Science and Engineering, Beijing Institute of Petrochemical Technology, Beijing 102617, P.
Jayarama Reddy, Structural and optical properties of Cd1−xZnxTe thin films, Journal of Alloys and Compounds, Vol. 218 (1995) , p. 86
McCandless, Sputtered Cd1-xZnxTe films for top junctions in tandem solar cells, Solar Energy Materials & Solar Cells, Vol. 86 (2005) , p.551
Bernede, Effect of the zinc composition on the formation of ternary alloy Cd1-xZnxTe thin films, Solar Energy Materials & Solar Cells, Vol. 90 (2006) , p.1364
Alexander, X-ray Diffraction Procedures for Polycrystalline and Amorphous Materials, 2nd ed., John Wiley&Sons, NewYork, 1974 (pp. 618–708, Chapter 9)
Jayarama Reddy, Structural and optical properties of Cd1−xZnxTe thin films, Journal of Alloys and Compounds, Vol. 218 (1995) , p. 86
McCandless, Sputtered Cd1-xZnxTe films for top junctions in tandem solar cells, Solar Energy Materials & Solar Cells, Vol. 86 (2005) , p.551
Bernede, Effect of the zinc composition on the formation of ternary alloy Cd1-xZnxTe thin films, Solar Energy Materials & Solar Cells, Vol. 90 (2006) , p.1364
Alexander, X-ray Diffraction Procedures for Polycrystalline and Amorphous Materials, 2nd ed., John Wiley&Sons, NewYork, 1974 (pp. 618–708, Chapter 9)
Online since: March 2014
Authors: Jing Fan, Li Ping Chen
Materials and methods
Materials
Rice materials used in this study was Nipponbare (Japanese variety, Japonica), Nacl and other reagents used for detecting were chemical purity grade, four levels of salt solutions with 0 mM (untreated control), 100, 150 and 200 mM NaCl were prepared by addition of the calculated amount of NaCl to water.
Determination of peroxidase activity 28 days-old seedlings were respectly treated with 0, 100, 150 and 200 mM NaCl, materials were collected after 3 days of treatment.
Liu: Chinese Journal of Applied Ecology Vol. 19 (2008), p2143 (in Chinese) [4] V.V.
McCaffery: Animal Production Science Vol. 28 (1988), p343 [7] J.D.
Miyake: Plant Production Science Vol. 12 (2009), p453 [9] Q.
Determination of peroxidase activity 28 days-old seedlings were respectly treated with 0, 100, 150 and 200 mM NaCl, materials were collected after 3 days of treatment.
Liu: Chinese Journal of Applied Ecology Vol. 19 (2008), p2143 (in Chinese) [4] V.V.
McCaffery: Animal Production Science Vol. 28 (1988), p343 [7] J.D.
Miyake: Plant Production Science Vol. 12 (2009), p453 [9] Q.
Online since: May 2022
Authors: Victor Tochukwu Ibeabuchi, Clifford Ugochukwu Nwoji, Chizoo Esonye
Hence, from Table 1, CES material meets the requirement as pozzolanic materials.
Materials Today: Proceedings, 45(2021) 884-890 [2] K.
Journal, 95(2018)66–76
Construction and Building Materials, 215(2019) 233–243
Construction and Building Materials, 41 (2013) 21–25.
Materials Today: Proceedings, 45(2021) 884-890 [2] K.
Journal, 95(2018)66–76
Construction and Building Materials, 215(2019) 233–243
Construction and Building Materials, 41 (2013) 21–25.
Online since: March 2012
Authors: Jin He Jiang, Bin Shan
The Synthesis and Ion-exchange Property of Li+ Memorized Inverse Spinel Al0.75Fe1.25(PO4)2
Jinhe Jiang Bin Shan
MicroScale Science Institute , Department of Chemistry and Chemical Engineering ,Weifang University, Weifang, 261061,China
Corresponding author.
The Li+ extraction/insertion with this material were investigated by X-ray, FT-IR spectroscopy, and Kd measurement, The chemical analysis showed that the Li+ extraction/insertion be progressed mainly by an ion-exchange mechanism.
References [1] Z.S.Peng: Synthesis and electrochemical studies on spinel phase LiMn2O4 cathode material prepared by different proceses, J.
Rare Metal. 1999,18(2),143 [2] Z.S.Peng, Y.S.Yan, C.Y.Jiang, C.R.Wan, H.C.Gao: Advance on extraction lithium from salt lake, J.Chemistry Online. 1997,(12),11 [3] Y.F.Liu, Q.Feng, Kenta Ool: Li extraction/insertion reaction with LiAlMnO4 and LiFeMnO4 spinels in the Aqueous phase, J.Journal of Colloid and Interface Science. 1994,163(1),130 [4] H.Zhong: Prpperty of H2TiO3 type ion-exchangers and extraction of lithium from brine of natural gas wells, J.Chinese Journal of Applied Chemistry. 2000,17(3),307
The Li+ extraction/insertion with this material were investigated by X-ray, FT-IR spectroscopy, and Kd measurement, The chemical analysis showed that the Li+ extraction/insertion be progressed mainly by an ion-exchange mechanism.
References [1] Z.S.Peng: Synthesis and electrochemical studies on spinel phase LiMn2O4 cathode material prepared by different proceses, J.
Rare Metal. 1999,18(2),143 [2] Z.S.Peng, Y.S.Yan, C.Y.Jiang, C.R.Wan, H.C.Gao: Advance on extraction lithium from salt lake, J.Chemistry Online. 1997,(12),11 [3] Y.F.Liu, Q.Feng, Kenta Ool: Li extraction/insertion reaction with LiAlMnO4 and LiFeMnO4 spinels in the Aqueous phase, J.Journal of Colloid and Interface Science. 1994,163(1),130 [4] H.Zhong: Prpperty of H2TiO3 type ion-exchangers and extraction of lithium from brine of natural gas wells, J.Chinese Journal of Applied Chemistry. 2000,17(3),307
Online since: October 2013
Authors: Jiří Čop, Imrich Lukovics
It presents the results of speed and efficient cutting tools in machining these materials alloyed with chromium.
Ceramic bonding are one of the most preferable material, however comparing to other bonding materials has the lowest tensile strength.
Russian Engineering Journal. 55, 5(1975), pp. 70-72
In Journal of Materials Processing Technology.
Machining Science and Technology. 6. 1(2002). pp. 43-52
Ceramic bonding are one of the most preferable material, however comparing to other bonding materials has the lowest tensile strength.
Russian Engineering Journal. 55, 5(1975), pp. 70-72
In Journal of Materials Processing Technology.
Machining Science and Technology. 6. 1(2002). pp. 43-52
Online since: November 2014
Authors: Zhao Peng Zhou, Fei Liu, Yong Hong Gao, Fan Xi Xue
In addition, the polyurethane foam is a kind of tensile brittle material land is easy to be cracked.
Materials Science and Engineering A, 2009, 517(1/2): 37-45 [13] SONG H W, FAN Z J, YU G.
International Journal of Solids and Structures, 2005, 42 (9/10): 2575-2600
Energy-absorption performance of porous materials in sandwich composites under hypervelocity impact loading [J].
[M]Magazine of Energy Absorption on Materials and Structures.
Materials Science and Engineering A, 2009, 517(1/2): 37-45 [13] SONG H W, FAN Z J, YU G.
International Journal of Solids and Structures, 2005, 42 (9/10): 2575-2600
Energy-absorption performance of porous materials in sandwich composites under hypervelocity impact loading [J].
[M]Magazine of Energy Absorption on Materials and Structures.