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Online since: August 2013
Authors: Peng Yang, Gen Bo Yu, Zan Cheng Chen, Rui Ying Men
Based on characteristics testing of the filling material, the related calculation was performed on the filling slurry gravity transport by pipelines.
For the slurry prepared from different materials, due to the big difference of composition particle settlement and penetrating properties, obvious difference also exist in the flow mechanism of slurry [7-8].
Therefore, for new filling system in mines, analysis and research on the properties of the filling material and the flow mechanism of slurry are necessary.
Fill material.
References [1] Qinli Zhang, Shengqing Xie, Jingjing Zheng, et al, Journal of Chongqing University (2011) (In Chinese) [2] Aimin Zhou, Desheng Gu, Journal of Central South University of Technology (Natural Science), (2004) (In Chinese) [3] Guixiang Wang, Kaiyuan Tang, Express Information of Mining Industry (2008) (In Chinese) [4] JURE M, PRIMOZ T, Fluid Dynamics Research (2006) [5] Daiqiang Deng, Li Wang, Yu Zhou, et al, Journal of Guangxi University (Natural Science Edition), (2012) (In Chinese) [6] Yongbing Liu, Jizhong Chen, Yongrong Yang, Journal of Zhejiang University: Engineering Science (2006) (In Chinese) [7] Xinmin Wang, Deming Zhang, Qinli Zhang, et al, Journal of Central South University (Science and Technology) (2011) (In Chinese) [8] Zhexiang He, Desheng Gu, Journal of Hunan University of Science & Technology (Natural Science Edition) (2007) (In Chinese)
For the slurry prepared from different materials, due to the big difference of composition particle settlement and penetrating properties, obvious difference also exist in the flow mechanism of slurry [7-8].
Therefore, for new filling system in mines, analysis and research on the properties of the filling material and the flow mechanism of slurry are necessary.
Fill material.
References [1] Qinli Zhang, Shengqing Xie, Jingjing Zheng, et al, Journal of Chongqing University (2011) (In Chinese) [2] Aimin Zhou, Desheng Gu, Journal of Central South University of Technology (Natural Science), (2004) (In Chinese) [3] Guixiang Wang, Kaiyuan Tang, Express Information of Mining Industry (2008) (In Chinese) [4] JURE M, PRIMOZ T, Fluid Dynamics Research (2006) [5] Daiqiang Deng, Li Wang, Yu Zhou, et al, Journal of Guangxi University (Natural Science Edition), (2012) (In Chinese) [6] Yongbing Liu, Jizhong Chen, Yongrong Yang, Journal of Zhejiang University: Engineering Science (2006) (In Chinese) [7] Xinmin Wang, Deming Zhang, Qinli Zhang, et al, Journal of Central South University (Science and Technology) (2011) (In Chinese) [8] Zhexiang He, Desheng Gu, Journal of Hunan University of Science & Technology (Natural Science Edition) (2007) (In Chinese)
Online since: May 2012
Authors: Yan Juan Jin, Zhu Zhang
Introduction
So far, concrete is one of the most widely using construction materials.
It shows concrete materials have obvious rate sensitivity
Perry: Journal of Engineering Mechanics.
Tedesco: ACI Materials Journal.
Liu: International Journal of Nonlinear Sciences and Numerical Simulation.
It shows concrete materials have obvious rate sensitivity
Perry: Journal of Engineering Mechanics.
Tedesco: ACI Materials Journal.
Liu: International Journal of Nonlinear Sciences and Numerical Simulation.
Online since: October 2010
Authors: Sérgio Neves Monteiro, Guerold Sergueevitch Bobrovinitchii, Marcello Filgueira, Ana Lúcia Diegues Skury, Rômulo Crespo Tardim
Novikov, et al.: Journal of Superhard Materials Vol. 6 (2004), p. 3.
5.
:Journal of Materials Science Vol. 17 (3) (1982), p. 193. 6.
Dewar: Journal of Materials Science Vol. 10 (11) (1975), p. 1933. 7.
Vovtchanovsky: Journal of Superhard Materials Vol. 2 (1983), p. 3. 10.
Mitlikin: Journal of Superhard Materials Vol. 5 (1980), p. 29. 20.
:Journal of Materials Science Vol. 17 (3) (1982), p. 193. 6.
Dewar: Journal of Materials Science Vol. 10 (11) (1975), p. 1933. 7.
Vovtchanovsky: Journal of Superhard Materials Vol. 2 (1983), p. 3. 10.
Mitlikin: Journal of Superhard Materials Vol. 5 (1980), p. 29. 20.
Online since: May 2007
Authors: En Gang Wang, Qiang Wang, Chun Jiang Wang, Ji Cheng He, Hai Tao Zhang
On the other hand, the contrary conclusions can be derived for
diamagnetic materials.
And part of this work was performed at high field laboratory for super-conducting materials, Institute for Materials Research, Tohoku University.
Iwai and S.Asai: Materials Transactions, Vol.42(2001), p.275 [12] H.O.
Lindroos: Scandinavian Journal of Metallurgy, Vol.10(1981), p.3 [13] Z.
Mater., Vol.43(2000), p.221 [17] K.Watanabe and M.Motokawa: Materials Science in Static High Magnetic Fields, (Springer, Berlin 2001)
And part of this work was performed at high field laboratory for super-conducting materials, Institute for Materials Research, Tohoku University.
Iwai and S.Asai: Materials Transactions, Vol.42(2001), p.275 [12] H.O.
Lindroos: Scandinavian Journal of Metallurgy, Vol.10(1981), p.3 [13] Z.
Mater., Vol.43(2000), p.221 [17] K.Watanabe and M.Motokawa: Materials Science in Static High Magnetic Fields, (Springer, Berlin 2001)
Online since: October 2010
Authors: Xue Liang Zhao
Discrete element method (DEM) is a powerful tool for the study of granular materials.
Numerical method is a complementary method, especially good for microscale analysis of granular materials.
Granular materials are composed of distinct particles which displace independently from one another and interact only at contact points.
The DEM can capture both the macroscale response and the microscale behavior of the granular materials.
Finno: Geotechnical Testing Journal, 18(4), (1995) p405-420.
Numerical method is a complementary method, especially good for microscale analysis of granular materials.
Granular materials are composed of distinct particles which displace independently from one another and interact only at contact points.
The DEM can capture both the macroscale response and the microscale behavior of the granular materials.
Finno: Geotechnical Testing Journal, 18(4), (1995) p405-420.
Online since: October 2011
Authors: Yu Huan Liu, Xiao Dan Wu, Rong Sheng Ruan, Yi Qin Wan, Jin Sheng Zhang, Hong Peng
In addition, there are added benefits can be obtained from the system, such as some high value-added products, animal feed, organic fertilizer, high-absorption materials, and so on.
There are differences on fermentation efficiency among different raw materials, so the researchers must consider the source, type and quantity of raw materials, and adopt science and appropriate ratio of materials to improve the efficiency and quality of biogas and slurry[6,7].
In addition, the coupling system can also obtain some high-value microalgae products, animal feed, organic fertilizer, high-absorption materials from the microalgae, achieving effective amplification.
Ruan, et al., Mixotrophic cultivation of Chlorella vulgaris and its potential application for the oil accumulation from non-sugar materials, Biomass and Bioenergy. 35 (2011) 2245-2253
Er-Raioui, et al., Depositional environment controls on petroleum potential of the Eocene in the North of Tunisia, Journal of Petroleum Science and Engineering. (3-4) (2010) 91-105
There are differences on fermentation efficiency among different raw materials, so the researchers must consider the source, type and quantity of raw materials, and adopt science and appropriate ratio of materials to improve the efficiency and quality of biogas and slurry[6,7].
In addition, the coupling system can also obtain some high-value microalgae products, animal feed, organic fertilizer, high-absorption materials from the microalgae, achieving effective amplification.
Ruan, et al., Mixotrophic cultivation of Chlorella vulgaris and its potential application for the oil accumulation from non-sugar materials, Biomass and Bioenergy. 35 (2011) 2245-2253
Er-Raioui, et al., Depositional environment controls on petroleum potential of the Eocene in the North of Tunisia, Journal of Petroleum Science and Engineering. (3-4) (2010) 91-105
Online since: July 2016
Authors: Shu Yin, Tsugio Sato, Junichi Matsushita, Tohru Sekino, Naoya Iwamoto, Xiao Ling Wang, Tomoyuki Tsuchiyama, Kazuya Hamaguchi, Jian Feng Yang, Xiao Yong Wu
Anatase Type Titanium Dioxide Prepared by
Oxidation of Titanium Carbide
Jun-ichi Matsushita1,a, Tomoyuki Tsuchiyama1, Kazuya Hamaguchi1,
Naoya Iwamoto1, Xiaoling Wang2, Jianfeng Yang3, Tohru Sekino4,
Xiaoyong Wu5, Shu Yin5, and Tsugio Sato5
1Department of Materials Science, Tokai University, Hiratsuka 259-1292, Japan
2School of Mechanical Engineering, University Science and Technology Beijing, Beijing 100083, China
3School of Materials Science & Engineering, Xi'an Jiaotong University, Xi'an 710049, China
4The Institute of Scientific and Industrial Research, Osaka University, Osaka 567-0041, Japan
5Institute of Multidisciplinary Research for Advanced Materials, Tohoku University, Sendai 980-8577, Japan
aemail: matsushita@tsc.u-tokai.ac.jp
Keywords: TiC, TiO2, Anatase, Photocatalyst
Abstract.
Sato, Journal of Materials Chemistry, 15, 674-682 (2005)
Yang, Materials Letters, 60, 693-697 (2006)
Matsushita, Journal of Materials Science & Technology, 24, 102-104 (2007)
Matsushita, Materials Science Forum, 761, 125-129 (2013).
Sato, Journal of Materials Chemistry, 15, 674-682 (2005)
Yang, Materials Letters, 60, 693-697 (2006)
Matsushita, Journal of Materials Science & Technology, 24, 102-104 (2007)
Matsushita, Materials Science Forum, 761, 125-129 (2013).
Online since: December 2025
Authors: Olena Romashko-Maistruk, Vasyl Romashko
Hamid, Dynamic Increase Factor of High Strength Concrete with Silica Fume at High Strain Rate Loading, Materials Science Forum, 857 (2016) 299-304
Marzouk, Strain Rate Sensitivity of Fiber-Reinforced Cementitious Composites, ACI Materials Journal, 113(2) (2016) 143-150
MacGregor, Sustained load strength and short-term strain behavior of high-strength concrete, ACI Materials Journal, 95(5) (1998) 636-647
Ser.: Materials Science and Engineering, 1021 (2021) 012026
Ser.: Materials Science and Engineering, 708 (2019) 012069
Marzouk, Strain Rate Sensitivity of Fiber-Reinforced Cementitious Composites, ACI Materials Journal, 113(2) (2016) 143-150
MacGregor, Sustained load strength and short-term strain behavior of high-strength concrete, ACI Materials Journal, 95(5) (1998) 636-647
Ser.: Materials Science and Engineering, 1021 (2021) 012026
Ser.: Materials Science and Engineering, 708 (2019) 012069
Online since: August 2022
Authors: Basappa C. Yallur, M.R. Ambika, S.R. Usharani, Maalathi Challa, Sheetal Batakurki
Journal of Materials Science: Materials in Electronics. 32, 9 (2021) 12164-12181
IOP Conference Series: Materials Science and Engineering. 872, 1 (2020) 012099
In IOP Conference Series: Materials Science and Engineering.
Journal of Materials Science: Materials in Electronics. 29, 10 (2018) 8535-8546
Journal of Materials Chemistry A. 9, 7 (2021) 4103-4116
IOP Conference Series: Materials Science and Engineering. 872, 1 (2020) 012099
In IOP Conference Series: Materials Science and Engineering.
Journal of Materials Science: Materials in Electronics. 29, 10 (2018) 8535-8546
Journal of Materials Chemistry A. 9, 7 (2021) 4103-4116
Online since: October 2015
Authors: De Hui Guo, Xiao Wang, Hai Rong Jiang, Guo Chun Chen, Zhang Yan, Hui Xia Liu
Material Preparation.
Atre: Journal of Applied Polymer Science, Vol. 118(2010) No.6 pp. 3602-3611
Zhou,: Journal of Applied Polymer Science, Vol. 114 (2009) No.2 pp.834-842
Criado: Journal of Materials Research, Vol. 16(2001) No.6 pp. 1862-1871
Atre: Journal of Applied Polymer Science, Vol. 118(2010) No.6 pp. 3602-3611
Atre: Journal of Applied Polymer Science, Vol. 118(2010) No.6 pp. 3602-3611
Zhou,: Journal of Applied Polymer Science, Vol. 114 (2009) No.2 pp.834-842
Criado: Journal of Materials Research, Vol. 16(2001) No.6 pp. 1862-1871
Atre: Journal of Applied Polymer Science, Vol. 118(2010) No.6 pp. 3602-3611