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Online since: September 2014
Authors: F.S. Silva, P.H. Suegama, W.P. Silva, A.W. Rinaldi, N.L.C. Domingues, M.Y. Matsumoto, L.G. Salazar
Shah: Materials Chemistry and Physics Vol. 93 (2005), p. 54
Materials Chemistry and Physics. 89 (2005) 176–181
Erk: Materials Chemistry Physics Vol. 85 (2004), p. 420
Erbil: Materials Chemistry and Physics Vol. 112 (2008), p. 624
Santilli: Journal of Non-Crystalline Solids Vol. 356 (2010), p. 2606
Materials Chemistry and Physics. 89 (2005) 176–181
Erk: Materials Chemistry Physics Vol. 85 (2004), p. 420
Erbil: Materials Chemistry and Physics Vol. 112 (2008), p. 624
Santilli: Journal of Non-Crystalline Solids Vol. 356 (2010), p. 2606
Online since: March 2013
Authors: Yong Lin Kang, Guo Ming Zhu, Xing Ye Guo
Simulation and Technology Optimization for Rolling Web Wave of Large Size H-Beam
Xingye Guoa, Guoming Zhub and Yonglin Kangc
School of Material Science and Engineering, University of Science and Technology Beijing, Beijing 100083, China
aguoxingye@gmail.com, bzhuguoming@ustb.edu.cn, ckangylin@ustb.edu.cn
Keywords:Large size H-Beam, Universal mill rolling, Finite element method, Web wave, Flange/web stretching ratio.
Doctoral dissertation of University of Science & Technology Beijing. 2008
Journal of Plasticity Engineering. , 11 (2004) 70-74
The Fifth International Conference on Physical and Numerical Simulation of Materials Processing, 2007
Materials Science Forum Vols. 704-705(2012) 1370-1378
Doctoral dissertation of University of Science & Technology Beijing. 2008
Journal of Plasticity Engineering. , 11 (2004) 70-74
The Fifth International Conference on Physical and Numerical Simulation of Materials Processing, 2007
Materials Science Forum Vols. 704-705(2012) 1370-1378
Online since: October 2010
Authors: Fei You, Feng Yang, Min Ren
Vivid colors and complicated patterns are always
adopted in such decorative textiles of various patterns, forms, materials, colors and applications.
Rlung-rta (Prayer Flag) Fabricated from source materials of cloth like brocade, thin silk, damask silk, silk and paper in white or five colors of blue, white, red, green and yellow.
Experimental section Materials.
Besides the above materials, it can be found that colors and patterns are more important for decorative textiles in Tibetan religious ornament arts.
[3] You Fei, Hu Yuan, Shi Hu: Journal of Donghua University Vol. 23 (2006), p. 135 [4] Hiroki Fujita: Tibetan Buddhist Art (Hakusuisha Publishing Co.
Rlung-rta (Prayer Flag) Fabricated from source materials of cloth like brocade, thin silk, damask silk, silk and paper in white or five colors of blue, white, red, green and yellow.
Experimental section Materials.
Besides the above materials, it can be found that colors and patterns are more important for decorative textiles in Tibetan religious ornament arts.
[3] You Fei, Hu Yuan, Shi Hu: Journal of Donghua University Vol. 23 (2006), p. 135 [4] Hiroki Fujita: Tibetan Buddhist Art (Hakusuisha Publishing Co.
Online since: March 2011
Authors: Shi Ming Ji, J.L. Xu, Z.P. Fang
References
[1] S.M.Ji,B.Gong: Advanced Materials Research, Vol.102-104(2010), pp.489-494
[2] K.H.Zhang,G.F.Wang: Advanced Materials Research, Vol.102-104(2010), pp.649-652
[3] S.M.Ji,B.Tang: Journal of Mechanical Engineering, Vol.46(2010), pp.178-184
[4] R.G.Hou,C.Z.Huang: Key Engineering Materials, Vol.431-432(2010), pp.90-93
[6] S.M.Ji,F.Q.Xiao: Advanced Materials Research, Vol.97-101(2010), pp.3055-3059
[2] K.H.Zhang,G.F.Wang: Advanced Materials Research, Vol.102-104(2010), pp.649-652
[3] S.M.Ji,B.Tang: Journal of Mechanical Engineering, Vol.46(2010), pp.178-184
[4] R.G.Hou,C.Z.Huang: Key Engineering Materials, Vol.431-432(2010), pp.90-93
[6] S.M.Ji,F.Q.Xiao: Advanced Materials Research, Vol.97-101(2010), pp.3055-3059
Online since: April 2018
Authors: Jakrapong Kaewkhao, Hong Joo Kim, Yaowaluk Tariwong, Narong Sangwaranatee, Natthakridta Chanthima
Sangwaranatee4,e
1Center of Excellence in Glass Technology and Materials Science (CEGM), Nakhon Pathom
Rajabhat University, Nakhon Pathom 73000, Thailand
2Physics Program, Faculty of Science and Technology, Nakhon Pathom Rajabhat University,
Nakhon Pathom 73000, Thailand
3Department of Physics, Kyungpook National University, Daegu 702-701, Korea
4Applied Physics, Faculty of Science and Technology, Suan Sunandha Rajabhat University,
Bangkok 10300, Thailand
anatthakridta@gmail.com, by.tariwong@gmail.com, chongjoo@knu.ac.kr,
dmink110@hotmail.com, enarong.sa@ssru.ac.th
Keywords: Europium oxide; Luminescence properties; Phosphate glass
Abstract.
Oxide glasses such as borate, phosphate, silicate and telluride have proven to be the suitable host materials for the advancement of optoelectronics devices due to their high transparency, easy to prepare and low cost production [4].
The raw materials as lithium carbonate (Li2CO3), aluminium oxide (Al2O3), ammonium dihydrogen orthophosphate (NH4H2PO4) and europium oxide (Eu2O3) were thoroughly mixed and ground in porcelain crucibles for 20 g total weight of glass samples.
Acknowledgements The authors would like to thanks Suan Sunandha Rajabhat University (SSRU), National Research Council of Thailand (NRCT) and Center of Excellence in Glass Technology and Materials Science (CEGM), Nakhon Pathom Rajabhat University (NPRU) for supporting this research.
Tamchek: submitted to Chinese Journal of Chemical physics (2016) [12] Yu-Chun Li, Yen-Hwei Chang, Yu-Feng Lin, Yee-Shin Chang, Yi-Jing Lin, Synthesis and luminescent properties of Ln3+ (Eu3+, Sm3+, Dy3+) -doped lanthanum aluminum germanate LaAlGe2O7 phosphors, J.
Oxide glasses such as borate, phosphate, silicate and telluride have proven to be the suitable host materials for the advancement of optoelectronics devices due to their high transparency, easy to prepare and low cost production [4].
The raw materials as lithium carbonate (Li2CO3), aluminium oxide (Al2O3), ammonium dihydrogen orthophosphate (NH4H2PO4) and europium oxide (Eu2O3) were thoroughly mixed and ground in porcelain crucibles for 20 g total weight of glass samples.
Acknowledgements The authors would like to thanks Suan Sunandha Rajabhat University (SSRU), National Research Council of Thailand (NRCT) and Center of Excellence in Glass Technology and Materials Science (CEGM), Nakhon Pathom Rajabhat University (NPRU) for supporting this research.
Tamchek: submitted to Chinese Journal of Chemical physics (2016) [12] Yu-Chun Li, Yen-Hwei Chang, Yu-Feng Lin, Yee-Shin Chang, Yi-Jing Lin, Synthesis and luminescent properties of Ln3+ (Eu3+, Sm3+, Dy3+) -doped lanthanum aluminum germanate LaAlGe2O7 phosphors, J.
Online since: June 2011
Authors: Wei Qi Li, Jin Zhou, Wei Min Gao
Use of hydrogen as a temporary alloying element in Ti alloys is an attractive approach to improve the mechanical properties of the materials, enhance processability and thereby reduce manufacturing costs.
Introduction Titanium-based products are generally characterized by high manufacturing costs due to the poor machinability of the materials.
Froes: International Journal of Hydrogen Energy Vol. 24 (1999), p. 565-576
Yolton: Technical Report AFWAL-TR-80-4038, (Air Force Materials Laboratory, Ohio 1980)
Li, et al. in: The international Conference on Advances in Materials and Processing Technologies (Manama, Kingdom of Bahrain 2008).
Introduction Titanium-based products are generally characterized by high manufacturing costs due to the poor machinability of the materials.
Froes: International Journal of Hydrogen Energy Vol. 24 (1999), p. 565-576
Yolton: Technical Report AFWAL-TR-80-4038, (Air Force Materials Laboratory, Ohio 1980)
Li, et al. in: The international Conference on Advances in Materials and Processing Technologies (Manama, Kingdom of Bahrain 2008).
Online since: January 2022
Authors: Ekaterina A. Pecherskaya, Yuriy A. Varenik, Anastasiya E. Shepeleva, Timur O. Zinchenko, Vladimir V. Antipenko, Artem V. Volik
The main materials used today are indium-tin oxide, tin-antimony oxide and zinc-aluminum oxide.
Thin films have unique properties (not typical for bulk materials) that arise as a result of the atomic growth process, size effects (including quantum size effects).
Kuo, Rapid synthesis of tin oxide decorated carbon nanotube nanocomposities as anode materials for lithium-ion batteries, J.
Tabata, Fluorine doped tin dioxide thin films prepared by chemical vapor deposition, Journal of Applied Physics, 68 (8) (1990) 4282–4285
[17] Timur Zinchenko, Ekaterina Pecherskaya and Dmitriy Artamonov, The properties study of transparent conductive oxides (TCO) of tin dioxide (ATO) doped by antimony obtained by spray pyrolysis, AIMS Materials Science, 6(2) (2019) 276–287.
Thin films have unique properties (not typical for bulk materials) that arise as a result of the atomic growth process, size effects (including quantum size effects).
Kuo, Rapid synthesis of tin oxide decorated carbon nanotube nanocomposities as anode materials for lithium-ion batteries, J.
Tabata, Fluorine doped tin dioxide thin films prepared by chemical vapor deposition, Journal of Applied Physics, 68 (8) (1990) 4282–4285
[17] Timur Zinchenko, Ekaterina Pecherskaya and Dmitriy Artamonov, The properties study of transparent conductive oxides (TCO) of tin dioxide (ATO) doped by antimony obtained by spray pyrolysis, AIMS Materials Science, 6(2) (2019) 276–287.
Online since: May 2012
Authors: Zhi Hua Fan, Qiang Xue, Jiang Shan Li, Lei Liu
The P-V modified model and experiment of landfill gas generation rate
Liu Lei1,2,a, Fan Zhihua3,b, Xue Qiang1,c, Li Jiangshan1,d
1Institute of Rock and Soil Mechanics, The Chinese Academy of Sciences State Key Laboratory of Geomechanics and Geotechnical Engineering, Wuhan,430071, Hubei, China
2Key Lab of Biogeology and Environmental Geology of Ministry of Education, China University of Geosciences, Wuhan
3School of Mechanical Engineering, Hangzhou Dianzi University, Hangzhou 310018,China;
algdliulei@163.com,
bfanzhihua@163.com,
cmilson_xq@163.com,
dcersm@163.com
Keywords: landfill gas; P-V modified model; biodegradation; gas production; gas generation rate
Abstract.
Materials The organic fraction (the readily, moderately, and the slowly biodegradable fractions) of the waste sample is respectively, 55%, 30% and 15%.
Table 2 The result of production rate constant test k(day-1) Stage 1 Stage 2 Stage 1 Stage 2 Case A 0.01512 0.0317 0.76 0.94 Case B 0.00792 0.0181 0.81 0.90 Case C 0.00756 0.0145 0.79 0.83 Acknowledgments This research was supported by the and Special Fund for Basic Research on Scientific Instruments of the National Natural Science Foundation of China (50927904) and the National Basic Research Program of China(973 Program)(2012CB719802) and the Young Scientists Fund of Main Direction Program of Knowledge Innovation of Chinese Academy of Sciences (KZCX2-YW-QN114) and National Natural Science Foundation of China (50874102) and the Major Program of Special Funds for Scientific Instruments of the Chinese Academy of Sciences (YZ200942) and the Open Research Program of the Key Lab of Biogeology and Environmental Geology of Ministry of Education (BGEG1008) References [1]Landfill Gas Emissions Model Version 2.0(User's Manual).
Journal of Chemical Induestry and Engineering , 59(3): 751-755(In Chinese) [6]G.
China Environmental Science, 28(8): 730-735(In Chinese) [9] Jiajun Chen, Hao WANG, Na ZHANG, et al. 2008.
Materials The organic fraction (the readily, moderately, and the slowly biodegradable fractions) of the waste sample is respectively, 55%, 30% and 15%.
Table 2 The result of production rate constant test k(day-1) Stage 1 Stage 2 Stage 1 Stage 2 Case A 0.01512 0.0317 0.76 0.94 Case B 0.00792 0.0181 0.81 0.90 Case C 0.00756 0.0145 0.79 0.83 Acknowledgments This research was supported by the and Special Fund for Basic Research on Scientific Instruments of the National Natural Science Foundation of China (50927904) and the National Basic Research Program of China(973 Program)(2012CB719802) and the Young Scientists Fund of Main Direction Program of Knowledge Innovation of Chinese Academy of Sciences (KZCX2-YW-QN114) and National Natural Science Foundation of China (50874102) and the Major Program of Special Funds for Scientific Instruments of the Chinese Academy of Sciences (YZ200942) and the Open Research Program of the Key Lab of Biogeology and Environmental Geology of Ministry of Education (BGEG1008) References [1]Landfill Gas Emissions Model Version 2.0(User's Manual).
Journal of Chemical Induestry and Engineering , 59(3): 751-755(In Chinese) [6]G.
China Environmental Science, 28(8): 730-735(In Chinese) [9] Jiajun Chen, Hao WANG, Na ZHANG, et al. 2008.
Online since: December 2012
Authors: Jin Xu, Li Gang Xu, Lei Dong, Ran Gong
Field studies on the treatment capacity of the stormwater wetland
Jin Xu1,2, a, Ligang Xu2,b, Ran Gong1,c,Lei Dong 2,d
1Department of environmental engineering, Nanjing institute of technology, Nanjing, China
2State Key Laboratory of Lake Science and Environment, Nanjing Institute of Geography and Limnology, Chinese Academy of Sciences, Nanjing, China
aXujin100408@163.com, bLgxu@niglas.ac.cn, chhuhenry@163.com, ddlyltt@126.com
Keywords: wetland, phosphorus, nitrogen, removal effect
Abstract.
Materials and methods The wetlands system.
This work was financially supported by National Natural Science Foundation of China (41101465, 50909019) , National Basic Research Program of China (973 Program, No. 2012CB417005), Youth Foundation of Nanjing Institute of Technology (QKJA2010009) and University Natural Science Foundation of Jiangsu Province (11KJB610003).
Journal of Hydrology.
Environmental Science Press of China (1993) .
Materials and methods The wetlands system.
This work was financially supported by National Natural Science Foundation of China (41101465, 50909019) , National Basic Research Program of China (973 Program, No. 2012CB417005), Youth Foundation of Nanjing Institute of Technology (QKJA2010009) and University Natural Science Foundation of Jiangsu Province (11KJB610003).
Journal of Hydrology.
Environmental Science Press of China (1993) .
Online since: December 2013
Authors: Shan Shan Lu, Hua Li, Hui Chao Dai, Quan Lin Ding
L, Ding4
1 College of Water Conservancy and Hydropower Engineering, Hohai University Nanjing, China
2 Three Gorges Corporation, Yunnan kunming , China
3 College of Water Conservancy and Hydropower Engineering, Hohai University Nanjing, China
College of Mechanics and Materials,Hohai University Nanjing, China
alssznl@163.com
Keywords: Hydraulic characteristics; numerical simulation; energy dissipater with step-down floor.
Acknowledgements This work was financially supported by the National Science Fund for Distinguished Young Scholars (No. 50925932) and National Natural Science Foundation of China (No. 51279047).
[2] Gao Jizhang, Li Yongmei,Liu Peiqing, in: submitted to Journal of Hydraulic Engineering, (1999) [3] Li Yanling, Hua Guochun, Zhang Jianmin: Advances in Water Science, Vol. 17 (2006), p. 761
[4] Deng Jun, Xu Weilin, Zhang Jianming,in: A New Type of Plunge Pool—Multi-horizontal Submerged Jets, edited by Technological Sciences, Science in China (2008), p.2128
Science Press, (2006),in press.
Acknowledgements This work was financially supported by the National Science Fund for Distinguished Young Scholars (No. 50925932) and National Natural Science Foundation of China (No. 51279047).
[2] Gao Jizhang, Li Yongmei,Liu Peiqing, in: submitted to Journal of Hydraulic Engineering, (1999) [3] Li Yanling, Hua Guochun, Zhang Jianmin: Advances in Water Science, Vol. 17 (2006), p. 761
[4] Deng Jun, Xu Weilin, Zhang Jianming,in: A New Type of Plunge Pool—Multi-horizontal Submerged Jets, edited by Technological Sciences, Science in China (2008), p.2128
Science Press, (2006),in press.