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Online since: June 2012
Authors: Xue Gang Luo, Xiao Yan Lin, Ya Ping Zhang, Yun Qiang Tang
Studies on Adsorption of Strontium (II) by Expanded Rice Husk
Yunqiang Tang1, a, Xiaoyan Lin*1, 2, b, Yaping Zhang1, Xuegang Luo1, 2, c
1School of Materials Science and Engineering, Southwest University of Science and Technology, Mianyang, 621010, China
2Engineering Research Center for Biomass Materials,Ministry of Education, China
a809786181@qq.com, blxy20100205@163.com, clxg@swust.edu.cn
Keywords: Expanded rice husk; Adsorption; Sr2+
Abstract.
Experimental Materials and instruments.
Expanded rice husk was obtained from Deyang Haitian high-tech materials Manufacturing Co., Ltd.
Materials Science Forum 658 (2010) 45-48
Journal of Hazardous Materials 187 (2011) 182-189.
Experimental Materials and instruments.
Expanded rice husk was obtained from Deyang Haitian high-tech materials Manufacturing Co., Ltd.
Materials Science Forum 658 (2010) 45-48
Journal of Hazardous Materials 187 (2011) 182-189.
Online since: September 2011
Authors: Zhao Hui Lu, Yan Gang Zhao, Zhi Wu Yu
Liu: Journal of Constructional Steel Research Vol.61 (2005), p.902
[2] D.
Nishiyama: ASCE Journal of Structural Engineering Vol.130 (2004), p.180 [6] D.
Park: ASCE Journal of Structural Engineering Vol.114 (1988), p.1804 [9] G.
Deierlein: ASCE Journal of Structural Engineering Vol.125 (1999), p.1009 [11] Eurocode 2.
ASCE Journal of Materials in Civil Engineering Vol.14 (2002), p.230
Nishiyama: ASCE Journal of Structural Engineering Vol.130 (2004), p.180 [6] D.
Park: ASCE Journal of Structural Engineering Vol.114 (1988), p.1804 [9] G.
Deierlein: ASCE Journal of Structural Engineering Vol.125 (1999), p.1009 [11] Eurocode 2.
ASCE Journal of Materials in Civil Engineering Vol.14 (2002), p.230
Online since: March 2016
Authors: Stanislaw Wrona, Marek Pawelczyk
A classical protection solution is to apply passive sound insulating materials.
The active casing idea can also be extended by appropriately including energy recovery issues or employment or smart materials [19,20].
Acknowledgment The research reported in this paper has been supported by the National Science Centre, decision no.
Morari, Feedback control of sound transmission through a double glazed window, Journal of Sound and Vibration 263.4 (2003) 775-795
Pietrzko, Contributions to noise and vibration control technology, AGH University of Science and Technology Press, Cracow, 2009
The active casing idea can also be extended by appropriately including energy recovery issues or employment or smart materials [19,20].
Acknowledgment The research reported in this paper has been supported by the National Science Centre, decision no.
Morari, Feedback control of sound transmission through a double glazed window, Journal of Sound and Vibration 263.4 (2003) 775-795
Pietrzko, Contributions to noise and vibration control technology, AGH University of Science and Technology Press, Cracow, 2009
Online since: October 2011
Authors: Deng Xin Li, Ying Chen Zhang, Jin Hui Dong, Min Cong Zhu, Ying Hua Zhao
Therefore, it is necessary to product low cost and effective adsorption materials that can be applied to water pollution control.
Material and Methods Preparation of expanded graphite Commercial expandable graphite (expansion ratio of 150 - 250mL/g, purchased from Qingdao Nanshu Hongda Graphite Co.
Acknowledgments This research was granted financial support from Langsha Postdoctoral Science Foundation, National High Technology Research and Development Program of China (863 Program, No. 2006AA06Z132), and Project of Key Discipline Construction in Shanghai (No.
References [1] K.G.Sreejalekshmi, K.Anoop Krishnan, T.S.Anirudhan, J.Journal of Hazardous Materials.161(2009)1506-1513 [2] G.W.
Chinese Journal of Chemical Engineering, 16(3)401-406 [5]Sayed Zia Mohammadi, Mohammad Ali Karimi, J.Desalination.5(2010)1-8 [6] K.G.
Material and Methods Preparation of expanded graphite Commercial expandable graphite (expansion ratio of 150 - 250mL/g, purchased from Qingdao Nanshu Hongda Graphite Co.
Acknowledgments This research was granted financial support from Langsha Postdoctoral Science Foundation, National High Technology Research and Development Program of China (863 Program, No. 2006AA06Z132), and Project of Key Discipline Construction in Shanghai (No.
References [1] K.G.Sreejalekshmi, K.Anoop Krishnan, T.S.Anirudhan, J.Journal of Hazardous Materials.161(2009)1506-1513 [2] G.W.
Chinese Journal of Chemical Engineering, 16(3)401-406 [5]Sayed Zia Mohammadi, Mohammad Ali Karimi, J.Desalination.5(2010)1-8 [6] K.G.
Online since: November 2010
Authors: Han Fa Liu, Hua Fu Zhang, Ai Ping Zhou
This has led researchers to explore alternative materials for the TCO applications.
Presently, zinc oxide or impurity-doped (such as Ti, B, Al, Ga and Zr) zinc oxide films have been actively studied as alternate materials to replace ITO because they are non-toxic, inexpensive and abundant [4, 5].
Acknowledgements This work is supported by the Natural Science Foundation of Shandong Province of China (No.
Yuan: Chinese Journal of Liquid Crystals and Displays Vol. 24 (2009), p. 132
Ji: Journal of Functional Materials Vol. 36 (2005), p. 241
Presently, zinc oxide or impurity-doped (such as Ti, B, Al, Ga and Zr) zinc oxide films have been actively studied as alternate materials to replace ITO because they are non-toxic, inexpensive and abundant [4, 5].
Acknowledgements This work is supported by the Natural Science Foundation of Shandong Province of China (No.
Yuan: Chinese Journal of Liquid Crystals and Displays Vol. 24 (2009), p. 132
Ji: Journal of Functional Materials Vol. 36 (2005), p. 241
Online since: November 2012
Authors: Bo Wang, Wei Fu
P
tr
ts
Pmax
t
Fig.1 Blasting time-load history
Numerical Model
Determination of Material Parameters.
The calculation assumes that under the effect of excavation blasting load of newly built tunnel, the surrounding rock of existing tunnel is in elastic range and all materials are linear elastic.
Thus, the static index of the material is used during calculation.
Material parameters are listed in Table 1.
References [1] Yong Yao, Chuan He and Qixiang Yan: Geotechnical Mechanics Vol. 25 (2004), p. 501 [2] Jihong Bi, Jianhui Zhong: Blasting Engineering Vol. 4 (2004), p. 69 [3] Delun Wu, Xiaoming Ye: Journal of Geotechnical Mechanics and Engineering Vol. 9 (1997), p. 266 [4] Jun Sun: Design theory and application of underground engineering (Shanghai Science and Technology Press, Shanghai 1994) [5] Guohua Liu, Zhenyu Wang: Journal of Zhejiang University Vol. 2 (2004), p. 204
The calculation assumes that under the effect of excavation blasting load of newly built tunnel, the surrounding rock of existing tunnel is in elastic range and all materials are linear elastic.
Thus, the static index of the material is used during calculation.
Material parameters are listed in Table 1.
References [1] Yong Yao, Chuan He and Qixiang Yan: Geotechnical Mechanics Vol. 25 (2004), p. 501 [2] Jihong Bi, Jianhui Zhong: Blasting Engineering Vol. 4 (2004), p. 69 [3] Delun Wu, Xiaoming Ye: Journal of Geotechnical Mechanics and Engineering Vol. 9 (1997), p. 266 [4] Jun Sun: Design theory and application of underground engineering (Shanghai Science and Technology Press, Shanghai 1994) [5] Guohua Liu, Zhenyu Wang: Journal of Zhejiang University Vol. 2 (2004), p. 204
Online since: October 2014
Authors: Hong Jiang, Chang Jiu Li, Lin Yu, Yang Shen, Zheng Cao, Xiu Quan Zhao
Introduction
MgO-Al2O3-SiO2 glass-ceramics are one of the most important glass-ceramics system which has been extensively used as dielectric and substrate materials with low dielectric constant and thermal expansion coefficient as well as excellent mechanical and insulation properties.
A variety of materials, such as CeO2, BaF2, TiO2 are used as additive for glass-ceramics and have an significant effect on its crystallization kinetics.
The glasses in the chemical composition 10Li2O–20MgO–5Al2O3–55SiO2–10MgF2(mol%) were prepared using analytical reagent materials by melting a 200g glass batch in a corundum crucible at 1520℃ for 2h.
Acknowledgement Thanks for the funding of Key Technologies R&D Program (Grant No.2013BAE03B02-01 and 2013BAJ15B04-01), Science and Technology Major Project of Hainan Province (Grant No.ZDZX2013002), Hainan Key Scientific And Technological Projects (Grant No.ZDXM20130085), the Natural Science Foundation of Hainan Province (Grant No.214018 ), The D℃toral Scientific Research Foundation of Hainan University (Grant No.kyqd1311), “Qiushi” Innovative research team of Hainan University Students etc.
Journal of Wuhan University of Technology-Mater.
A variety of materials, such as CeO2, BaF2, TiO2 are used as additive for glass-ceramics and have an significant effect on its crystallization kinetics.
The glasses in the chemical composition 10Li2O–20MgO–5Al2O3–55SiO2–10MgF2(mol%) were prepared using analytical reagent materials by melting a 200g glass batch in a corundum crucible at 1520℃ for 2h.
Acknowledgement Thanks for the funding of Key Technologies R&D Program (Grant No.2013BAE03B02-01 and 2013BAJ15B04-01), Science and Technology Major Project of Hainan Province (Grant No.ZDZX2013002), Hainan Key Scientific And Technological Projects (Grant No.ZDXM20130085), the Natural Science Foundation of Hainan Province (Grant No.214018 ), The D℃toral Scientific Research Foundation of Hainan University (Grant No.kyqd1311), “Qiushi” Innovative research team of Hainan University Students etc.
Journal of Wuhan University of Technology-Mater.
Online since: December 2011
Authors: Pu Hong Wen
ZK1051) from Baoji University of Arts and Sciences.
Jia: Journal of Chinese Medicinal Materials Vol. 28 (2005), p. 111 [7] P.H.
Zheng: Chinese Journal of Chemistry Vol. 24 (2006), p. 29 [8] R.Z.
Shi: Thermal Analysis Kinetics (Science Publications, Beijing 2001) [9] Y.Z.
Lang: Chinese Journal of Chemistry Vol. 22 (2004), p. 1091
Jia: Journal of Chinese Medicinal Materials Vol. 28 (2005), p. 111 [7] P.H.
Zheng: Chinese Journal of Chemistry Vol. 24 (2006), p. 29 [8] R.Z.
Shi: Thermal Analysis Kinetics (Science Publications, Beijing 2001) [9] Y.Z.
Lang: Chinese Journal of Chemistry Vol. 22 (2004), p. 1091
Online since: January 2011
Authors: Xin Sui, Fu Juan Feng, Dan Zhao, Min Min Chen, Shi Jie Han
Development of Pinus koraiensis SSR primers based on EST-SSR information technology
Xin Sui1, 2, a, Fujuan Feng3, b, Dan Zhao3, c, Minmin Chen1, d, Shijie Han1*, e
1Institute of Applied Ecology, Chinese Academy of Sciences, Shenyang 110016, China
2Graduate University of Chinese Academy of Sciences,Beijing 100049, China
3Northeast Forestry University, Harbin 150040, China
aemail:xinsui_cool@126.com, bemail:ffj9018@sina.com, eemail:hansj@iae.ac.cn
Keywords: Pinus koraiensis; EST-SSR; Primer
Abstract.
Materials and methods Materials.
It is normal for some conservative fragments without polymorphism, which is dependent upon experimental materials and primer design [11].
Yumei Zhou (Institute of Applied Ecology, Chinese Academy of Sciences, China) for helpful comments on the manuscript.
Journal of Fruit Science, Vol. 17, pp. 79-82, (2000) [14] G Chunyu: Development of SSR primers in Leptolepis from the Pinaceae’s EST, Journal of Northeast Forestry University, In press, (2010) [15]Cordeiro et al: Microsatellite markers from sugarcane (Saccharum spp.)
Materials and methods Materials.
It is normal for some conservative fragments without polymorphism, which is dependent upon experimental materials and primer design [11].
Yumei Zhou (Institute of Applied Ecology, Chinese Academy of Sciences, China) for helpful comments on the manuscript.
Journal of Fruit Science, Vol. 17, pp. 79-82, (2000) [14] G Chunyu: Development of SSR primers in Leptolepis from the Pinaceae’s EST, Journal of Northeast Forestry University, In press, (2010) [15]Cordeiro et al: Microsatellite markers from sugarcane (Saccharum spp.)
Online since: May 2019
Authors: Jian Yang, Yun Ma, Gang Chen, Qing Mei Luo, Li Jun She, Wen Jie Wan, Xue Fan Gu
SPE Journal 4(1): 9-18 (1999)
[4] Seng Peng, Xiaobin Tang, Hao Wang, Yan Wei, Gang Chen, Preparation of poly-hydrazide and use as pour point depressor for heavy oil, Materials Science Forum, 943: 135-140 (2019)
[5] Xu Jingfang, Xue Yuying, Liu Man, Zhang Fawang, Tang Ying, Zhang Yongming, Wang Zheng, Performance of the castor oil in methanol-gasoline as a bi-functional additive, Key Engineering Materials, 777: 232-237 (2018)
[7] Xuefan Gu, Fan Zhang, Yongfei Li, Jie Zhang, Shijun Chen, Chengtun Qu, Gang Chen, Investigation of cationic surfactants as clean flow improvers for crude oil and a mechanism study, Journal of Petroleum Science and Engineering, 164: 87-90 (2018)
[9] Gang Chen, Weihua Yuan, Fan Zhang, Xuefan Gu, Weichao Du, Jie Zhang, Jinling Li, Chengtun Qu, Application of polymethacrylate from waste organic glass as a pour point depressor in heavy crude oil, Journal of Petroleum Science and Engineering, 165: 1049-1053 (2018)
[4] Seng Peng, Xiaobin Tang, Hao Wang, Yan Wei, Gang Chen, Preparation of poly-hydrazide and use as pour point depressor for heavy oil, Materials Science Forum, 943: 135-140 (2019)
[5] Xu Jingfang, Xue Yuying, Liu Man, Zhang Fawang, Tang Ying, Zhang Yongming, Wang Zheng, Performance of the castor oil in methanol-gasoline as a bi-functional additive, Key Engineering Materials, 777: 232-237 (2018)
[7] Xuefan Gu, Fan Zhang, Yongfei Li, Jie Zhang, Shijun Chen, Chengtun Qu, Gang Chen, Investigation of cationic surfactants as clean flow improvers for crude oil and a mechanism study, Journal of Petroleum Science and Engineering, 164: 87-90 (2018)
[9] Gang Chen, Weihua Yuan, Fan Zhang, Xuefan Gu, Weichao Du, Jie Zhang, Jinling Li, Chengtun Qu, Application of polymethacrylate from waste organic glass as a pour point depressor in heavy crude oil, Journal of Petroleum Science and Engineering, 165: 1049-1053 (2018)