Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: February 2013
Authors: Wen Jie Li, Yun Wu, Hui Jia
Materials and Methods
Synthetic Wastewater
The reactor feed contained glucose and ammonium chloride, used as the primary organic and nitrogenous components.
The experiment used bubble-free aeration, prompted part of the CO2 into the water through membrane science, making the pH decreased.
Acknowledgements The study was financially supported by National Natural Science Foundation of China (No. 51108316 and No. 50908161) References [1] Kazuaki, Hibiya, Simultaneous nitrification and denitrification by controlling vertical and horizontal microenvironment in a membrane-aerated biofilm reactor, Journal of Biotechnology. 100 (2003) 23-32
[3] Hu Shaowei, Yang Fenglin, SUN Cui, Zhang Jianye and Wang Tonghua, Simultaneous removal of COD and nitrogen using a novel carbon-membrane aerated bioflm reactor, Journal of Environmental Sciences. 20 (2008) 142–148
[10] Yamei Dong, Zhenjia Zhang, Yongwei Jin, Zhirong Li and Jian Lu, Nitrification performance of nitrifying bacteria immobilized in waterborne Polyurethane at low ammonia nitrogen concentrations, Journal of Environmental Sciences. 23(2011) 366–371.
The experiment used bubble-free aeration, prompted part of the CO2 into the water through membrane science, making the pH decreased.
Acknowledgements The study was financially supported by National Natural Science Foundation of China (No. 51108316 and No. 50908161) References [1] Kazuaki, Hibiya, Simultaneous nitrification and denitrification by controlling vertical and horizontal microenvironment in a membrane-aerated biofilm reactor, Journal of Biotechnology. 100 (2003) 23-32
[3] Hu Shaowei, Yang Fenglin, SUN Cui, Zhang Jianye and Wang Tonghua, Simultaneous removal of COD and nitrogen using a novel carbon-membrane aerated bioflm reactor, Journal of Environmental Sciences. 20 (2008) 142–148
[10] Yamei Dong, Zhenjia Zhang, Yongwei Jin, Zhirong Li and Jian Lu, Nitrification performance of nitrifying bacteria immobilized in waterborne Polyurethane at low ammonia nitrogen concentrations, Journal of Environmental Sciences. 23(2011) 366–371.
Online since: February 2022
Authors: Ryota Uchida, Agha Mohammad Fazli, Jun Tomiyama, Bashir Ahmad Aasim, Yuya Suda, Abdul Khaliq Karimi
Indian Journal of Science and Technology, 14(16),
1283-1295
In IOP Conference Series: Materials Science and Engineering (Vol. 1054, No. 1, p. 012011).
SN Applied Sciences, 2(10), 1-17
Engineering Science and Technology, an International Journal
Asian Journal of Civil Engineering, 21(3), 437-447
In IOP Conference Series: Materials Science and Engineering (Vol. 1054, No. 1, p. 012011).
SN Applied Sciences, 2(10), 1-17
Engineering Science and Technology, an International Journal
Asian Journal of Civil Engineering, 21(3), 437-447
Numerical Studies to Signal Characteristics with the Metal Magnetic Memory-Effect Based of Cast Iron
Online since: September 2014
Authors: Yi Bo Peng, Shang Feng Pan, Chao Lu
This can be used to detect the degree of damage of ferromagnetic materials.
This result tells that if magnetic field is used to measure the damage of materials, we may measure the signal on different directions, thus avoiding we measure the magnetic field parallel to the width of the crack.
Journal of Magnetism and Magnetic Materials 2010;322(4):413-416 [7] Li Xiao-meng, Ding Hong-sheng, Bai Shi-wu.
Research on the stress-magnetism effect of ferromagnetic materials based on three-dimensional magnetic flux leakage testing.
Ferromagnetic school,Beijing:Science Press,1992 [10]Dong lihong, xubingshi.
This result tells that if magnetic field is used to measure the damage of materials, we may measure the signal on different directions, thus avoiding we measure the magnetic field parallel to the width of the crack.
Journal of Magnetism and Magnetic Materials 2010;322(4):413-416 [7] Li Xiao-meng, Ding Hong-sheng, Bai Shi-wu.
Research on the stress-magnetism effect of ferromagnetic materials based on three-dimensional magnetic flux leakage testing.
Ferromagnetic school,Beijing:Science Press,1992 [10]Dong lihong, xubingshi.
Online since: October 2014
Authors: O.N. Sevryukov, A.N. Suchkov, V.T. Fedotov, В.A. Kalin, A.A. Ivannikov, I.V. Fedotov, P.V. Morokhov, A.E. Grigoryev
The urgency of a high temperature brazing becomes apparent when nondetachable joints of dissimilar materials are created, such as graphite, ceramics, refractory metals, heat resistant steels, and nickel and titanium alloys, i.e. materials that are most commonly used in modern energy-intensive techniques.
Rabinkin New Applications for Rapidly Solidified Brazing Foils/Welding Journal, vol. 10, 1989.
Brazing of titanium using low-melting-point Ti-based filler metals // Welding Journal, 1990, December.
Journal of Nuclear Materials 442 (2013) S237-S241
Fusion Science and Technology, Vol.61, 2012, p. 147-153
Rabinkin New Applications for Rapidly Solidified Brazing Foils/Welding Journal, vol. 10, 1989.
Brazing of titanium using low-melting-point Ti-based filler metals // Welding Journal, 1990, December.
Journal of Nuclear Materials 442 (2013) S237-S241
Fusion Science and Technology, Vol.61, 2012, p. 147-153
Online since: July 2013
Authors: Wen Long Jiang, Gang Zhang
So the blue light-emitting materials and devices is of great significance.
Many kinds of blue light materials [11-13] have been synthesized, and constantly have new progress.
The temperature of every source can be controlled independently with different materials.
Science,1995,267:1332 [4] R.
Journal of University of Electronic Science and Technology of China.2008.37(3):457-459 [11] J M Shi, C W Tang, C H Chen.
Many kinds of blue light materials [11-13] have been synthesized, and constantly have new progress.
The temperature of every source can be controlled independently with different materials.
Science,1995,267:1332 [4] R.
Journal of University of Electronic Science and Technology of China.2008.37(3):457-459 [11] J M Shi, C W Tang, C H Chen.
Online since: May 2012
Authors: Zhuan Nian Liu, Xiao Xue Zhang, Lin Zhao
Experimental
Experimental materials and equipment.
The natural hematite which as used as experimental materials were taken from the wild.
References [1] Remakrishna K R,Viraraghavan T: Water Sci Technol.Vol. 36 (1997), p. 189 [2] Hui Wu, Juan Chen, Chengfang Li: Journal of Hubei University (Natural Science).
Vol. 31 (2009), p. 59(In Chinese) [3] Chuanhao Chen, Bo Xie, Yuan Ren: Environmental Science.
Vol. 21 (2000), p. 93(In Chinese) [4] Meijuan Xu, Qishan Wang, Changxing Hu: Journal of Harbin Institute of Technology.
The natural hematite which as used as experimental materials were taken from the wild.
References [1] Remakrishna K R,Viraraghavan T: Water Sci Technol.Vol. 36 (1997), p. 189 [2] Hui Wu, Juan Chen, Chengfang Li: Journal of Hubei University (Natural Science).
Vol. 31 (2009), p. 59(In Chinese) [3] Chuanhao Chen, Bo Xie, Yuan Ren: Environmental Science.
Vol. 21 (2000), p. 93(In Chinese) [4] Meijuan Xu, Qishan Wang, Changxing Hu: Journal of Harbin Institute of Technology.
Online since: October 2008
Authors: Jun Chang, Ling Chao Lu, Xin Cheng, Zheng Mao Ye
School of Materials Science and Engineering, University of Jinan, Jinan250022,P.R.
School of Materials Science and Engineering, Wuhan University of Technology, Wuhan430070, P.R.
Acknowledgment This work is Supported by National Natural Science Foundation of China (50672032, 50502017) and Natural Science Foundation of Shandong Province(Z2006F01,Y2005F08).
Journal of Chong qing Jiao tong University, 2001, 20(11): 26-28
Journal of Hydraulic Engineering, 2005, 36(7): 876-878
School of Materials Science and Engineering, Wuhan University of Technology, Wuhan430070, P.R.
Acknowledgment This work is Supported by National Natural Science Foundation of China (50672032, 50502017) and Natural Science Foundation of Shandong Province(Z2006F01,Y2005F08).
Journal of Chong qing Jiao tong University, 2001, 20(11): 26-28
Journal of Hydraulic Engineering, 2005, 36(7): 876-878
Online since: December 2012
Authors: Shi Wei Ren, Jing Wei Sun, Yan Zhong Hao
Introduction
The amorphous silicon thin film is an important light-sensitive material.
By using molecular dynamics, the microcosmic states of the materials can be observed and studied on an atomic level.
Now the research on the amorphous or polycrystalline silicon thin film is one of the important topics on the material science [6,7].
Acknowledgements This work was financially supported by the Natural Science Foundation of Hebei Province (E2011208083).
Kim: Ultramicroscopy Vol. 97 (2003), p. 481 [4] Maruf H, Husam H, Hameed N, et al.: Journal of Non-Crystalline Solids Vol. 52(2006), p. 18 [5] Tucci M, De Cesare G: Journal of Noncrystalline solids Vol. 338-340(2004), p.663 [6] Niraj N.
By using molecular dynamics, the microcosmic states of the materials can be observed and studied on an atomic level.
Now the research on the amorphous or polycrystalline silicon thin film is one of the important topics on the material science [6,7].
Acknowledgements This work was financially supported by the Natural Science Foundation of Hebei Province (E2011208083).
Kim: Ultramicroscopy Vol. 97 (2003), p. 481 [4] Maruf H, Husam H, Hameed N, et al.: Journal of Non-Crystalline Solids Vol. 52(2006), p. 18 [5] Tucci M, De Cesare G: Journal of Noncrystalline solids Vol. 338-340(2004), p.663 [6] Niraj N.
Online since: July 2014
Authors: Jin Chang Wang, Ya Zhen Sun, Gang Bing Wu, Chuan Jiang Zhu, Yuan Yuan
Raw Materials and Asphalt Mixture Design
The Shengzhou permeating basalt mineral aggregate is shown in Table 1 and Table 2.The mineral powder gain from the levigation of Lanxi’s limestone. 70#Bitumen were used in this paper is shown in Table 3.
Acknowledgements This work was financially supported by the Zhejiang Province Communications Department Science and Technology Program (2013H30), the National Natural Science Foundation of China (NSFC)(51078331, 51108411) and the Ningbo City Science and Technology Program (201301C5005002).
New specimen for fracture toughness determination for rock and other materials .
International Journal of Fracture, 1984, 26:59~62
Journal of Shenyang Jianzhu University (Natural Science).2013,29(1):56-64.
Acknowledgements This work was financially supported by the Zhejiang Province Communications Department Science and Technology Program (2013H30), the National Natural Science Foundation of China (NSFC)(51078331, 51108411) and the Ningbo City Science and Technology Program (201301C5005002).
New specimen for fracture toughness determination for rock and other materials .
International Journal of Fracture, 1984, 26:59~62
Journal of Shenyang Jianzhu University (Natural Science).2013,29(1):56-64.
Online since: August 2013
Authors: Chang Yuan Lu, Yong Zhen Jia, Jia Wei Wang, Chang Sheng Lv
Experiment
2.1 Instrumens and materials
The laser particle size analyzer (Mastersizer2000).
Acknowledgements This work was financially supported by the National Natural Science Fundation (51264006 ), Training Project for Young Talents of Science and Education in Guizhou Province(Qian Province Zhuan He Zi 2012(149)).
Journal of materials and metallurgy, Vol. 6 (2007) No. 3,P. 184-187, in Chinese [5] Liu Caimei, Wang Jianli: The effect of Nc and Ns on seeded precipitation of sodium aluminate solution.
Journal of Shenyang University of Chemical Technology, Vol. 17 (2003) No.1, P. 29- 32, in Chinese [7] Misra C,White E T :Kinetics of crystallization of aluminum trihydroxide from seeded caustic aluminum solutions.
Colloid and Interface Science, (1998) No. 203, P. 115-121
Acknowledgements This work was financially supported by the National Natural Science Fundation (51264006 ), Training Project for Young Talents of Science and Education in Guizhou Province(Qian Province Zhuan He Zi 2012(149)).
Journal of materials and metallurgy, Vol. 6 (2007) No. 3,P. 184-187, in Chinese [5] Liu Caimei, Wang Jianli: The effect of Nc and Ns on seeded precipitation of sodium aluminate solution.
Journal of Shenyang University of Chemical Technology, Vol. 17 (2003) No.1, P. 29- 32, in Chinese [7] Misra C,White E T :Kinetics of crystallization of aluminum trihydroxide from seeded caustic aluminum solutions.
Colloid and Interface Science, (1998) No. 203, P. 115-121